// Generated from C.g4 by ANTLR 4.8
package chapi.ast.antlr;
import org.antlr.v4.runtime.atn.*;
import org.antlr.v4.runtime.dfa.DFA;
import org.antlr.v4.runtime.*;
import org.antlr.v4.runtime.misc.*;
import org.antlr.v4.runtime.tree.*;
import java.util.List;
import java.util.Iterator;
import java.util.ArrayList;

@SuppressWarnings({"all", "warnings", "unchecked", "unused", "cast"})
public class CParser extends Parser {
	static { RuntimeMetaData.checkVersion("4.8", RuntimeMetaData.VERSION); }

	protected static final DFA[] _decisionToDFA;
	protected static final PredictionContextCache _sharedContextCache =
		new PredictionContextCache();
	public static final int
		T__0=1, T__1=2, T__2=3, T__3=4, T__4=5, T__5=6, T__6=7, T__7=8, T__8=9, 
		T__9=10, T__10=11, T__11=12, T__12=13, T__13=14, T__14=15, T__15=16, T__16=17, 
		T__17=18, Auto=19, Break=20, Case=21, Char=22, Const=23, Continue=24, 
		Default=25, Do=26, Double=27, Else=28, Enum=29, Extern=30, Float=31, For=32, 
		Goto=33, If=34, Inline=35, Int=36, Long=37, Register=38, Restrict=39, 
		Return=40, Short=41, Signed=42, Sizeof=43, Static=44, Struct=45, Switch=46, 
		Typedef=47, Union=48, Unsigned=49, Void=50, Volatile=51, While=52, Alignas=53, 
		Alignof=54, Atomic=55, Bool=56, Complex=57, Generic=58, Imaginary=59, 
		Noreturn=60, StaticAssert=61, ThreadLocal=62, LeftParen=63, RightParen=64, 
		LeftBracket=65, RightBracket=66, LeftBrace=67, RightBrace=68, Less=69, 
		LessEqual=70, Greater=71, GreaterEqual=72, LeftShift=73, RightShift=74, 
		Plus=75, PlusPlus=76, Minus=77, MinusMinus=78, Star=79, Div=80, Mod=81, 
		And=82, Or=83, AndAnd=84, OrOr=85, Caret=86, Not=87, Tilde=88, Question=89, 
		Colon=90, Semi=91, Comma=92, Assign=93, StarAssign=94, DivAssign=95, ModAssign=96, 
		PlusAssign=97, MinusAssign=98, LeftShiftAssign=99, RightShiftAssign=100, 
		AndAssign=101, XorAssign=102, OrAssign=103, Equal=104, NotEqual=105, Arrow=106, 
		Dot=107, Ellipsis=108, Identifier=109, Constant=110, DigitSequence=111, 
		StringLiteral=112, ComplexDefine=113, AsmBlock=114, LineAfterPreprocessing=115, 
		LineDirective=116, PragmaDirective=117, Whitespace=118, Newline=119, BlockComment=120, 
		LineComment=121;
	public static final int
		RULE_primaryExpression = 0, RULE_genericSelection = 1, RULE_genericAssocList = 2, 
		RULE_genericAssociation = 3, RULE_postfixExpression = 4, RULE_argumentExpressionList = 5, 
		RULE_unaryExpression = 6, RULE_unaryOperator = 7, RULE_castExpression = 8, 
		RULE_multiplicativeExpression = 9, RULE_additiveExpression = 10, RULE_shiftExpression = 11, 
		RULE_relationalExpression = 12, RULE_equalityExpression = 13, RULE_andExpression = 14, 
		RULE_exclusiveOrExpression = 15, RULE_inclusiveOrExpression = 16, RULE_logicalAndExpression = 17, 
		RULE_logicalOrExpression = 18, RULE_conditionalExpression = 19, RULE_assignmentExpression = 20, 
		RULE_assignmentOperator = 21, RULE_expression = 22, RULE_constantExpression = 23, 
		RULE_declaration = 24, RULE_declarationSpecifiers = 25, RULE_declarationSpecifiers2 = 26, 
		RULE_declarationSpecifier = 27, RULE_initDeclaratorList = 28, RULE_initDeclarator = 29, 
		RULE_storageClassSpecifier = 30, RULE_typeSpecifier = 31, RULE_structOrUnionSpecifier = 32, 
		RULE_structOrUnion = 33, RULE_structDeclarationList = 34, RULE_structDeclaration = 35, 
		RULE_specifierQualifierList = 36, RULE_structDeclaratorList = 37, RULE_structDeclarator = 38, 
		RULE_enumSpecifier = 39, RULE_enumeratorList = 40, RULE_enumerator = 41, 
		RULE_enumerationConstant = 42, RULE_atomicTypeSpecifier = 43, RULE_typeQualifier = 44, 
		RULE_functionSpecifier = 45, RULE_alignmentSpecifier = 46, RULE_declarator = 47, 
		RULE_directDeclarator = 48, RULE_gccDeclaratorExtension = 49, RULE_gccAttributeSpecifier = 50, 
		RULE_gccAttributeList = 51, RULE_gccAttribute = 52, RULE_nestedParenthesesBlock = 53, 
		RULE_pointer = 54, RULE_typeQualifierList = 55, RULE_parameterTypeList = 56, 
		RULE_parameterList = 57, RULE_parameterDeclaration = 58, RULE_identifierList = 59, 
		RULE_typeName = 60, RULE_abstractDeclarator = 61, RULE_directAbstractDeclarator = 62, 
		RULE_typedefName = 63, RULE_initializer = 64, RULE_initializerList = 65, 
		RULE_designation = 66, RULE_designatorList = 67, RULE_designator = 68, 
		RULE_staticAssertDeclaration = 69, RULE_statement = 70, RULE_labeledStatement = 71, 
		RULE_compoundStatement = 72, RULE_blockItemList = 73, RULE_blockItem = 74, 
		RULE_expressionStatement = 75, RULE_selectionStatement = 76, RULE_iterationStatement = 77, 
		RULE_forCondition = 78, RULE_forDeclaration = 79, RULE_forExpression = 80, 
		RULE_jumpStatement = 81, RULE_compilationUnit = 82, RULE_translationUnit = 83, 
		RULE_externalDeclaration = 84, RULE_functionDefinition = 85, RULE_declarationList = 86, 
		RULE_includeDeclaration = 87, RULE_includeIdentifier = 88;
	private static String[] makeRuleNames() {
		return new String[] {
			"primaryExpression", "genericSelection", "genericAssocList", "genericAssociation", 
			"postfixExpression", "argumentExpressionList", "unaryExpression", "unaryOperator", 
			"castExpression", "multiplicativeExpression", "additiveExpression", "shiftExpression", 
			"relationalExpression", "equalityExpression", "andExpression", "exclusiveOrExpression", 
			"inclusiveOrExpression", "logicalAndExpression", "logicalOrExpression", 
			"conditionalExpression", "assignmentExpression", "assignmentOperator", 
			"expression", "constantExpression", "declaration", "declarationSpecifiers", 
			"declarationSpecifiers2", "declarationSpecifier", "initDeclaratorList", 
			"initDeclarator", "storageClassSpecifier", "typeSpecifier", "structOrUnionSpecifier", 
			"structOrUnion", "structDeclarationList", "structDeclaration", "specifierQualifierList", 
			"structDeclaratorList", "structDeclarator", "enumSpecifier", "enumeratorList", 
			"enumerator", "enumerationConstant", "atomicTypeSpecifier", "typeQualifier", 
			"functionSpecifier", "alignmentSpecifier", "declarator", "directDeclarator", 
			"gccDeclaratorExtension", "gccAttributeSpecifier", "gccAttributeList", 
			"gccAttribute", "nestedParenthesesBlock", "pointer", "typeQualifierList", 
			"parameterTypeList", "parameterList", "parameterDeclaration", "identifierList", 
			"typeName", "abstractDeclarator", "directAbstractDeclarator", "typedefName", 
			"initializer", "initializerList", "designation", "designatorList", "designator", 
			"staticAssertDeclaration", "statement", "labeledStatement", "compoundStatement", 
			"blockItemList", "blockItem", "expressionStatement", "selectionStatement", 
			"iterationStatement", "forCondition", "forDeclaration", "forExpression", 
			"jumpStatement", "compilationUnit", "translationUnit", "externalDeclaration", 
			"functionDefinition", "declarationList", "includeDeclaration", "includeIdentifier"
		};
	}
	public static final String[] ruleNames = makeRuleNames();

	private static String[] makeLiteralNames() {
		return new String[] {
			null, "'__extension__'", "'__builtin_va_arg'", "'__builtin_offsetof'", 
			"'__m128'", "'__m128d'", "'__m128i'", "'__typeof__'", "'__inline__'", 
			"'__stdcall'", "'__declspec'", "'__asm'", "'__attribute__'", "'__asm__'", 
			"'__volatile__'", "'#'", "'include'", "'\"'", "'h'", "'auto'", "'break'", 
			"'case'", "'char'", "'const'", "'continue'", "'default'", "'do'", "'double'", 
			"'else'", "'enum'", "'extern'", "'float'", "'for'", "'goto'", "'if'", 
			"'inline'", "'int'", "'long'", "'register'", "'restrict'", "'return'", 
			"'short'", "'signed'", "'sizeof'", "'static'", "'struct'", "'switch'", 
			"'typedef'", "'union'", "'unsigned'", "'void'", "'volatile'", "'while'", 
			"'_Alignas'", "'_Alignof'", "'_Atomic'", "'_Bool'", "'_Complex'", "'_Generic'", 
			"'_Imaginary'", "'_Noreturn'", "'_Static_assert'", "'_Thread_local'", 
			"'('", "')'", "'['", "']'", "'{'", "'}'", "'<'", "'<='", "'>'", "'>='", 
			"'<<'", "'>>'", "'+'", "'++'", "'-'", "'--'", "'*'", "'/'", "'%'", "'&'", 
			"'|'", "'&&'", "'||'", "'^'", "'!'", "'~'", "'?'", "':'", "';'", "','", 
			"'='", "'*='", "'/='", "'%='", "'+='", "'-='", "'<<='", "'>>='", "'&='", 
			"'^='", "'|='", "'=='", "'!='", "'->'", "'.'", "'...'"
		};
	}
	private static final String[] _LITERAL_NAMES = makeLiteralNames();
	private static String[] makeSymbolicNames() {
		return new String[] {
			null, null, null, null, null, null, null, null, null, null, null, null, 
			null, null, null, null, null, null, null, "Auto", "Break", "Case", "Char", 
			"Const", "Continue", "Default", "Do", "Double", "Else", "Enum", "Extern", 
			"Float", "For", "Goto", "If", "Inline", "Int", "Long", "Register", "Restrict", 
			"Return", "Short", "Signed", "Sizeof", "Static", "Struct", "Switch", 
			"Typedef", "Union", "Unsigned", "Void", "Volatile", "While", "Alignas", 
			"Alignof", "Atomic", "Bool", "Complex", "Generic", "Imaginary", "Noreturn", 
			"StaticAssert", "ThreadLocal", "LeftParen", "RightParen", "LeftBracket", 
			"RightBracket", "LeftBrace", "RightBrace", "Less", "LessEqual", "Greater", 
			"GreaterEqual", "LeftShift", "RightShift", "Plus", "PlusPlus", "Minus", 
			"MinusMinus", "Star", "Div", "Mod", "And", "Or", "AndAnd", "OrOr", "Caret", 
			"Not", "Tilde", "Question", "Colon", "Semi", "Comma", "Assign", "StarAssign", 
			"DivAssign", "ModAssign", "PlusAssign", "MinusAssign", "LeftShiftAssign", 
			"RightShiftAssign", "AndAssign", "XorAssign", "OrAssign", "Equal", "NotEqual", 
			"Arrow", "Dot", "Ellipsis", "Identifier", "Constant", "DigitSequence", 
			"StringLiteral", "ComplexDefine", "AsmBlock", "LineAfterPreprocessing", 
			"LineDirective", "PragmaDirective", "Whitespace", "Newline", "BlockComment", 
			"LineComment"
		};
	}
	private static final String[] _SYMBOLIC_NAMES = makeSymbolicNames();
	public static final Vocabulary VOCABULARY = new VocabularyImpl(_LITERAL_NAMES, _SYMBOLIC_NAMES);

	/**
	 * @deprecated Use {@link #VOCABULARY} instead.
	 */
	@Deprecated
	public static final String[] tokenNames;
	static {
		tokenNames = new String[_SYMBOLIC_NAMES.length];
		for (int i = 0; i < tokenNames.length; i++) {
			tokenNames[i] = VOCABULARY.getLiteralName(i);
			if (tokenNames[i] == null) {
				tokenNames[i] = VOCABULARY.getSymbolicName(i);
			}

			if (tokenNames[i] == null) {
				tokenNames[i] = "<INVALID>";
			}
		}
	}

	@Override
	@Deprecated
	public String[] getTokenNames() {
		return tokenNames;
	}

	@Override

	public Vocabulary getVocabulary() {
		return VOCABULARY;
	}

	@Override
	public String getGrammarFileName() { return "C.g4"; }

	@Override
	public String[] getRuleNames() { return ruleNames; }

	@Override
	public String getSerializedATN() { return _serializedATN; }

	@Override
	public ATN getATN() { return _ATN; }

	public CParser(TokenStream input) {
		super(input);
		_interp = new ParserATNSimulator(this,_ATN,_decisionToDFA,_sharedContextCache);
	}

	public static class PrimaryExpressionContext extends ParserRuleContext {
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public TerminalNode Constant() { return getToken(CParser.Constant, 0); }
		public List<TerminalNode> StringLiteral() { return getTokens(CParser.StringLiteral); }
		public TerminalNode StringLiteral(int i) {
			return getToken(CParser.StringLiteral, i);
		}
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public ExpressionContext expression() {
			return getRuleContext(ExpressionContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public GenericSelectionContext genericSelection() {
			return getRuleContext(GenericSelectionContext.class,0);
		}
		public CompoundStatementContext compoundStatement() {
			return getRuleContext(CompoundStatementContext.class,0);
		}
		public UnaryExpressionContext unaryExpression() {
			return getRuleContext(UnaryExpressionContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public TypeNameContext typeName() {
			return getRuleContext(TypeNameContext.class,0);
		}
		public PrimaryExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_primaryExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterPrimaryExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitPrimaryExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitPrimaryExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final PrimaryExpressionContext primaryExpression() throws RecognitionException {
		PrimaryExpressionContext _localctx = new PrimaryExpressionContext(_ctx, getState());
		enterRule(_localctx, 0, RULE_primaryExpression);
		int _la;
		try {
			int _alt;
			setState(211);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,2,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(178);
				match(Identifier);
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(179);
				match(Constant);
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(181); 
				_errHandler.sync(this);
				_alt = 1;
				do {
					switch (_alt) {
					case 1:
						{
						{
						setState(180);
						match(StringLiteral);
						}
						}
						break;
					default:
						throw new NoViableAltException(this);
					}
					setState(183); 
					_errHandler.sync(this);
					_alt = getInterpreter().adaptivePredict(_input,0,_ctx);
				} while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER );
				}
				break;
			case 4:
				enterOuterAlt(_localctx, 4);
				{
				setState(185);
				match(LeftParen);
				setState(186);
				expression(0);
				setState(187);
				match(RightParen);
				}
				break;
			case 5:
				enterOuterAlt(_localctx, 5);
				{
				setState(189);
				genericSelection();
				}
				break;
			case 6:
				enterOuterAlt(_localctx, 6);
				{
				setState(191);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if (_la==T__0) {
					{
					setState(190);
					match(T__0);
					}
				}

				setState(193);
				match(LeftParen);
				setState(194);
				compoundStatement();
				setState(195);
				match(RightParen);
				}
				break;
			case 7:
				enterOuterAlt(_localctx, 7);
				{
				setState(197);
				match(T__1);
				setState(198);
				match(LeftParen);
				setState(199);
				unaryExpression();
				setState(200);
				match(Comma);
				setState(201);
				typeName();
				setState(202);
				match(RightParen);
				}
				break;
			case 8:
				enterOuterAlt(_localctx, 8);
				{
				setState(204);
				match(T__2);
				setState(205);
				match(LeftParen);
				setState(206);
				typeName();
				setState(207);
				match(Comma);
				setState(208);
				unaryExpression();
				setState(209);
				match(RightParen);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class GenericSelectionContext extends ParserRuleContext {
		public TerminalNode Generic() { return getToken(CParser.Generic, 0); }
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public AssignmentExpressionContext assignmentExpression() {
			return getRuleContext(AssignmentExpressionContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public GenericAssocListContext genericAssocList() {
			return getRuleContext(GenericAssocListContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public GenericSelectionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_genericSelection; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterGenericSelection(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitGenericSelection(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitGenericSelection(this);
			else return visitor.visitChildren(this);
		}
	}

	public final GenericSelectionContext genericSelection() throws RecognitionException {
		GenericSelectionContext _localctx = new GenericSelectionContext(_ctx, getState());
		enterRule(_localctx, 2, RULE_genericSelection);
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(213);
			match(Generic);
			setState(214);
			match(LeftParen);
			setState(215);
			assignmentExpression();
			setState(216);
			match(Comma);
			setState(217);
			genericAssocList(0);
			setState(218);
			match(RightParen);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class GenericAssocListContext extends ParserRuleContext {
		public GenericAssociationContext genericAssociation() {
			return getRuleContext(GenericAssociationContext.class,0);
		}
		public GenericAssocListContext genericAssocList() {
			return getRuleContext(GenericAssocListContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public GenericAssocListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_genericAssocList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterGenericAssocList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitGenericAssocList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitGenericAssocList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final GenericAssocListContext genericAssocList() throws RecognitionException {
		return genericAssocList(0);
	}

	private GenericAssocListContext genericAssocList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		GenericAssocListContext _localctx = new GenericAssocListContext(_ctx, _parentState);
		GenericAssocListContext _prevctx = _localctx;
		int _startState = 4;
		enterRecursionRule(_localctx, 4, RULE_genericAssocList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(221);
			genericAssociation();
			}
			_ctx.stop = _input.LT(-1);
			setState(228);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,3,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new GenericAssocListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_genericAssocList);
					setState(223);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(224);
					match(Comma);
					setState(225);
					genericAssociation();
					}
					} 
				}
				setState(230);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,3,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class GenericAssociationContext extends ParserRuleContext {
		public TypeNameContext typeName() {
			return getRuleContext(TypeNameContext.class,0);
		}
		public TerminalNode Colon() { return getToken(CParser.Colon, 0); }
		public AssignmentExpressionContext assignmentExpression() {
			return getRuleContext(AssignmentExpressionContext.class,0);
		}
		public TerminalNode Default() { return getToken(CParser.Default, 0); }
		public GenericAssociationContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_genericAssociation; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterGenericAssociation(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitGenericAssociation(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitGenericAssociation(this);
			else return visitor.visitChildren(this);
		}
	}

	public final GenericAssociationContext genericAssociation() throws RecognitionException {
		GenericAssociationContext _localctx = new GenericAssociationContext(_ctx, getState());
		enterRule(_localctx, 6, RULE_genericAssociation);
		try {
			setState(238);
			_errHandler.sync(this);
			switch (_input.LA(1)) {
			case T__0:
			case T__3:
			case T__4:
			case T__5:
			case T__6:
			case Char:
			case Const:
			case Double:
			case Enum:
			case Float:
			case Int:
			case Long:
			case Restrict:
			case Short:
			case Signed:
			case Struct:
			case Union:
			case Unsigned:
			case Void:
			case Volatile:
			case Atomic:
			case Bool:
			case Complex:
			case Identifier:
				enterOuterAlt(_localctx, 1);
				{
				setState(231);
				typeName();
				setState(232);
				match(Colon);
				setState(233);
				assignmentExpression();
				}
				break;
			case Default:
				enterOuterAlt(_localctx, 2);
				{
				setState(235);
				match(Default);
				setState(236);
				match(Colon);
				setState(237);
				assignmentExpression();
				}
				break;
			default:
				throw new NoViableAltException(this);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class PostfixExpressionContext extends ParserRuleContext {
		public PrimaryExpressionContext primaryExpression() {
			return getRuleContext(PrimaryExpressionContext.class,0);
		}
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public TypeNameContext typeName() {
			return getRuleContext(TypeNameContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public TerminalNode LeftBrace() { return getToken(CParser.LeftBrace, 0); }
		public InitializerListContext initializerList() {
			return getRuleContext(InitializerListContext.class,0);
		}
		public TerminalNode RightBrace() { return getToken(CParser.RightBrace, 0); }
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public PostfixExpressionContext postfixExpression() {
			return getRuleContext(PostfixExpressionContext.class,0);
		}
		public TerminalNode LeftBracket() { return getToken(CParser.LeftBracket, 0); }
		public ExpressionContext expression() {
			return getRuleContext(ExpressionContext.class,0);
		}
		public TerminalNode RightBracket() { return getToken(CParser.RightBracket, 0); }
		public ArgumentExpressionListContext argumentExpressionList() {
			return getRuleContext(ArgumentExpressionListContext.class,0);
		}
		public TerminalNode Dot() { return getToken(CParser.Dot, 0); }
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public TerminalNode Arrow() { return getToken(CParser.Arrow, 0); }
		public TerminalNode PlusPlus() { return getToken(CParser.PlusPlus, 0); }
		public TerminalNode MinusMinus() { return getToken(CParser.MinusMinus, 0); }
		public PostfixExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_postfixExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterPostfixExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitPostfixExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitPostfixExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final PostfixExpressionContext postfixExpression() throws RecognitionException {
		return postfixExpression(0);
	}

	private PostfixExpressionContext postfixExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		PostfixExpressionContext _localctx = new PostfixExpressionContext(_ctx, _parentState);
		PostfixExpressionContext _prevctx = _localctx;
		int _startState = 8;
		enterRecursionRule(_localctx, 8, RULE_postfixExpression, _p);
		int _la;
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			setState(274);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,5,_ctx) ) {
			case 1:
				{
				setState(241);
				primaryExpression();
				}
				break;
			case 2:
				{
				setState(242);
				match(LeftParen);
				setState(243);
				typeName();
				setState(244);
				match(RightParen);
				setState(245);
				match(LeftBrace);
				setState(246);
				initializerList(0);
				setState(247);
				match(RightBrace);
				}
				break;
			case 3:
				{
				setState(249);
				match(LeftParen);
				setState(250);
				typeName();
				setState(251);
				match(RightParen);
				setState(252);
				match(LeftBrace);
				setState(253);
				initializerList(0);
				setState(254);
				match(Comma);
				setState(255);
				match(RightBrace);
				}
				break;
			case 4:
				{
				setState(257);
				match(T__0);
				setState(258);
				match(LeftParen);
				setState(259);
				typeName();
				setState(260);
				match(RightParen);
				setState(261);
				match(LeftBrace);
				setState(262);
				initializerList(0);
				setState(263);
				match(RightBrace);
				}
				break;
			case 5:
				{
				setState(265);
				match(T__0);
				setState(266);
				match(LeftParen);
				setState(267);
				typeName();
				setState(268);
				match(RightParen);
				setState(269);
				match(LeftBrace);
				setState(270);
				initializerList(0);
				setState(271);
				match(Comma);
				setState(272);
				match(RightBrace);
				}
				break;
			}
			_ctx.stop = _input.LT(-1);
			setState(299);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,8,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					setState(297);
					_errHandler.sync(this);
					switch ( getInterpreter().adaptivePredict(_input,7,_ctx) ) {
					case 1:
						{
						_localctx = new PostfixExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_postfixExpression);
						setState(276);
						if (!(precpred(_ctx, 10))) throw new FailedPredicateException(this, "precpred(_ctx, 10)");
						setState(277);
						match(LeftBracket);
						setState(278);
						expression(0);
						setState(279);
						match(RightBracket);
						}
						break;
					case 2:
						{
						_localctx = new PostfixExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_postfixExpression);
						setState(281);
						if (!(precpred(_ctx, 9))) throw new FailedPredicateException(this, "precpred(_ctx, 9)");
						setState(282);
						match(LeftParen);
						setState(284);
						_errHandler.sync(this);
						_la = _input.LA(1);
						if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
							{
							setState(283);
							argumentExpressionList(0);
							}
						}

						setState(286);
						match(RightParen);
						}
						break;
					case 3:
						{
						_localctx = new PostfixExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_postfixExpression);
						setState(287);
						if (!(precpred(_ctx, 8))) throw new FailedPredicateException(this, "precpred(_ctx, 8)");
						setState(288);
						match(Dot);
						setState(289);
						match(Identifier);
						}
						break;
					case 4:
						{
						_localctx = new PostfixExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_postfixExpression);
						setState(290);
						if (!(precpred(_ctx, 7))) throw new FailedPredicateException(this, "precpred(_ctx, 7)");
						setState(291);
						match(Arrow);
						setState(292);
						match(Identifier);
						}
						break;
					case 5:
						{
						_localctx = new PostfixExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_postfixExpression);
						setState(293);
						if (!(precpred(_ctx, 6))) throw new FailedPredicateException(this, "precpred(_ctx, 6)");
						setState(294);
						match(PlusPlus);
						}
						break;
					case 6:
						{
						_localctx = new PostfixExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_postfixExpression);
						setState(295);
						if (!(precpred(_ctx, 5))) throw new FailedPredicateException(this, "precpred(_ctx, 5)");
						setState(296);
						match(MinusMinus);
						}
						break;
					}
					} 
				}
				setState(301);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,8,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class ArgumentExpressionListContext extends ParserRuleContext {
		public AssignmentExpressionContext assignmentExpression() {
			return getRuleContext(AssignmentExpressionContext.class,0);
		}
		public ArgumentExpressionListContext argumentExpressionList() {
			return getRuleContext(ArgumentExpressionListContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public ArgumentExpressionListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_argumentExpressionList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterArgumentExpressionList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitArgumentExpressionList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitArgumentExpressionList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ArgumentExpressionListContext argumentExpressionList() throws RecognitionException {
		return argumentExpressionList(0);
	}

	private ArgumentExpressionListContext argumentExpressionList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		ArgumentExpressionListContext _localctx = new ArgumentExpressionListContext(_ctx, _parentState);
		ArgumentExpressionListContext _prevctx = _localctx;
		int _startState = 10;
		enterRecursionRule(_localctx, 10, RULE_argumentExpressionList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(303);
			assignmentExpression();
			}
			_ctx.stop = _input.LT(-1);
			setState(310);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,9,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new ArgumentExpressionListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_argumentExpressionList);
					setState(305);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(306);
					match(Comma);
					setState(307);
					assignmentExpression();
					}
					} 
				}
				setState(312);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,9,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class UnaryExpressionContext extends ParserRuleContext {
		public PostfixExpressionContext postfixExpression() {
			return getRuleContext(PostfixExpressionContext.class,0);
		}
		public TerminalNode PlusPlus() { return getToken(CParser.PlusPlus, 0); }
		public UnaryExpressionContext unaryExpression() {
			return getRuleContext(UnaryExpressionContext.class,0);
		}
		public TerminalNode MinusMinus() { return getToken(CParser.MinusMinus, 0); }
		public UnaryOperatorContext unaryOperator() {
			return getRuleContext(UnaryOperatorContext.class,0);
		}
		public CastExpressionContext castExpression() {
			return getRuleContext(CastExpressionContext.class,0);
		}
		public TerminalNode Sizeof() { return getToken(CParser.Sizeof, 0); }
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public TypeNameContext typeName() {
			return getRuleContext(TypeNameContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public TerminalNode Alignof() { return getToken(CParser.Alignof, 0); }
		public TerminalNode AndAnd() { return getToken(CParser.AndAnd, 0); }
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public UnaryExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_unaryExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterUnaryExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitUnaryExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitUnaryExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final UnaryExpressionContext unaryExpression() throws RecognitionException {
		UnaryExpressionContext _localctx = new UnaryExpressionContext(_ctx, getState());
		enterRule(_localctx, 12, RULE_unaryExpression);
		try {
			setState(335);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,10,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(313);
				postfixExpression(0);
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(314);
				match(PlusPlus);
				setState(315);
				unaryExpression();
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(316);
				match(MinusMinus);
				setState(317);
				unaryExpression();
				}
				break;
			case 4:
				enterOuterAlt(_localctx, 4);
				{
				setState(318);
				unaryOperator();
				setState(319);
				castExpression();
				}
				break;
			case 5:
				enterOuterAlt(_localctx, 5);
				{
				setState(321);
				match(Sizeof);
				setState(322);
				unaryExpression();
				}
				break;
			case 6:
				enterOuterAlt(_localctx, 6);
				{
				setState(323);
				match(Sizeof);
				setState(324);
				match(LeftParen);
				setState(325);
				typeName();
				setState(326);
				match(RightParen);
				}
				break;
			case 7:
				enterOuterAlt(_localctx, 7);
				{
				setState(328);
				match(Alignof);
				setState(329);
				match(LeftParen);
				setState(330);
				typeName();
				setState(331);
				match(RightParen);
				}
				break;
			case 8:
				enterOuterAlt(_localctx, 8);
				{
				setState(333);
				match(AndAnd);
				setState(334);
				match(Identifier);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class UnaryOperatorContext extends ParserRuleContext {
		public TerminalNode And() { return getToken(CParser.And, 0); }
		public TerminalNode Star() { return getToken(CParser.Star, 0); }
		public TerminalNode Plus() { return getToken(CParser.Plus, 0); }
		public TerminalNode Minus() { return getToken(CParser.Minus, 0); }
		public TerminalNode Tilde() { return getToken(CParser.Tilde, 0); }
		public TerminalNode Not() { return getToken(CParser.Not, 0); }
		public UnaryOperatorContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_unaryOperator; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterUnaryOperator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitUnaryOperator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitUnaryOperator(this);
			else return visitor.visitChildren(this);
		}
	}

	public final UnaryOperatorContext unaryOperator() throws RecognitionException {
		UnaryOperatorContext _localctx = new UnaryOperatorContext(_ctx, getState());
		enterRule(_localctx, 14, RULE_unaryOperator);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(337);
			_la = _input.LA(1);
			if ( !(((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (Minus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)))) != 0)) ) {
			_errHandler.recoverInline(this);
			}
			else {
				if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
				_errHandler.reportMatch(this);
				consume();
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class CastExpressionContext extends ParserRuleContext {
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public TypeNameContext typeName() {
			return getRuleContext(TypeNameContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public CastExpressionContext castExpression() {
			return getRuleContext(CastExpressionContext.class,0);
		}
		public UnaryExpressionContext unaryExpression() {
			return getRuleContext(UnaryExpressionContext.class,0);
		}
		public TerminalNode DigitSequence() { return getToken(CParser.DigitSequence, 0); }
		public CastExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_castExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterCastExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitCastExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitCastExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final CastExpressionContext castExpression() throws RecognitionException {
		CastExpressionContext _localctx = new CastExpressionContext(_ctx, getState());
		enterRule(_localctx, 16, RULE_castExpression);
		try {
			setState(352);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,11,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(339);
				match(LeftParen);
				setState(340);
				typeName();
				setState(341);
				match(RightParen);
				setState(342);
				castExpression();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(344);
				match(T__0);
				setState(345);
				match(LeftParen);
				setState(346);
				typeName();
				setState(347);
				match(RightParen);
				setState(348);
				castExpression();
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(350);
				unaryExpression();
				}
				break;
			case 4:
				enterOuterAlt(_localctx, 4);
				{
				setState(351);
				match(DigitSequence);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class MultiplicativeExpressionContext extends ParserRuleContext {
		public CastExpressionContext castExpression() {
			return getRuleContext(CastExpressionContext.class,0);
		}
		public MultiplicativeExpressionContext multiplicativeExpression() {
			return getRuleContext(MultiplicativeExpressionContext.class,0);
		}
		public TerminalNode Star() { return getToken(CParser.Star, 0); }
		public TerminalNode Div() { return getToken(CParser.Div, 0); }
		public TerminalNode Mod() { return getToken(CParser.Mod, 0); }
		public MultiplicativeExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_multiplicativeExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterMultiplicativeExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitMultiplicativeExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitMultiplicativeExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final MultiplicativeExpressionContext multiplicativeExpression() throws RecognitionException {
		return multiplicativeExpression(0);
	}

	private MultiplicativeExpressionContext multiplicativeExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		MultiplicativeExpressionContext _localctx = new MultiplicativeExpressionContext(_ctx, _parentState);
		MultiplicativeExpressionContext _prevctx = _localctx;
		int _startState = 18;
		enterRecursionRule(_localctx, 18, RULE_multiplicativeExpression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(355);
			castExpression();
			}
			_ctx.stop = _input.LT(-1);
			setState(368);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,13,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					setState(366);
					_errHandler.sync(this);
					switch ( getInterpreter().adaptivePredict(_input,12,_ctx) ) {
					case 1:
						{
						_localctx = new MultiplicativeExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_multiplicativeExpression);
						setState(357);
						if (!(precpred(_ctx, 3))) throw new FailedPredicateException(this, "precpred(_ctx, 3)");
						setState(358);
						match(Star);
						setState(359);
						castExpression();
						}
						break;
					case 2:
						{
						_localctx = new MultiplicativeExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_multiplicativeExpression);
						setState(360);
						if (!(precpred(_ctx, 2))) throw new FailedPredicateException(this, "precpred(_ctx, 2)");
						setState(361);
						match(Div);
						setState(362);
						castExpression();
						}
						break;
					case 3:
						{
						_localctx = new MultiplicativeExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_multiplicativeExpression);
						setState(363);
						if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
						setState(364);
						match(Mod);
						setState(365);
						castExpression();
						}
						break;
					}
					} 
				}
				setState(370);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,13,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class AdditiveExpressionContext extends ParserRuleContext {
		public MultiplicativeExpressionContext multiplicativeExpression() {
			return getRuleContext(MultiplicativeExpressionContext.class,0);
		}
		public AdditiveExpressionContext additiveExpression() {
			return getRuleContext(AdditiveExpressionContext.class,0);
		}
		public TerminalNode Plus() { return getToken(CParser.Plus, 0); }
		public TerminalNode Minus() { return getToken(CParser.Minus, 0); }
		public AdditiveExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_additiveExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterAdditiveExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitAdditiveExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitAdditiveExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final AdditiveExpressionContext additiveExpression() throws RecognitionException {
		return additiveExpression(0);
	}

	private AdditiveExpressionContext additiveExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		AdditiveExpressionContext _localctx = new AdditiveExpressionContext(_ctx, _parentState);
		AdditiveExpressionContext _prevctx = _localctx;
		int _startState = 20;
		enterRecursionRule(_localctx, 20, RULE_additiveExpression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(372);
			multiplicativeExpression(0);
			}
			_ctx.stop = _input.LT(-1);
			setState(382);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,15,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					setState(380);
					_errHandler.sync(this);
					switch ( getInterpreter().adaptivePredict(_input,14,_ctx) ) {
					case 1:
						{
						_localctx = new AdditiveExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_additiveExpression);
						setState(374);
						if (!(precpred(_ctx, 2))) throw new FailedPredicateException(this, "precpred(_ctx, 2)");
						setState(375);
						match(Plus);
						setState(376);
						multiplicativeExpression(0);
						}
						break;
					case 2:
						{
						_localctx = new AdditiveExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_additiveExpression);
						setState(377);
						if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
						setState(378);
						match(Minus);
						setState(379);
						multiplicativeExpression(0);
						}
						break;
					}
					} 
				}
				setState(384);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,15,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class ShiftExpressionContext extends ParserRuleContext {
		public AdditiveExpressionContext additiveExpression() {
			return getRuleContext(AdditiveExpressionContext.class,0);
		}
		public ShiftExpressionContext shiftExpression() {
			return getRuleContext(ShiftExpressionContext.class,0);
		}
		public TerminalNode LeftShift() { return getToken(CParser.LeftShift, 0); }
		public TerminalNode RightShift() { return getToken(CParser.RightShift, 0); }
		public ShiftExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_shiftExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterShiftExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitShiftExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitShiftExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ShiftExpressionContext shiftExpression() throws RecognitionException {
		return shiftExpression(0);
	}

	private ShiftExpressionContext shiftExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		ShiftExpressionContext _localctx = new ShiftExpressionContext(_ctx, _parentState);
		ShiftExpressionContext _prevctx = _localctx;
		int _startState = 22;
		enterRecursionRule(_localctx, 22, RULE_shiftExpression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(386);
			additiveExpression(0);
			}
			_ctx.stop = _input.LT(-1);
			setState(396);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,17,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					setState(394);
					_errHandler.sync(this);
					switch ( getInterpreter().adaptivePredict(_input,16,_ctx) ) {
					case 1:
						{
						_localctx = new ShiftExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_shiftExpression);
						setState(388);
						if (!(precpred(_ctx, 2))) throw new FailedPredicateException(this, "precpred(_ctx, 2)");
						setState(389);
						match(LeftShift);
						setState(390);
						additiveExpression(0);
						}
						break;
					case 2:
						{
						_localctx = new ShiftExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_shiftExpression);
						setState(391);
						if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
						setState(392);
						match(RightShift);
						setState(393);
						additiveExpression(0);
						}
						break;
					}
					} 
				}
				setState(398);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,17,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class RelationalExpressionContext extends ParserRuleContext {
		public ShiftExpressionContext shiftExpression() {
			return getRuleContext(ShiftExpressionContext.class,0);
		}
		public RelationalExpressionContext relationalExpression() {
			return getRuleContext(RelationalExpressionContext.class,0);
		}
		public TerminalNode Less() { return getToken(CParser.Less, 0); }
		public TerminalNode Greater() { return getToken(CParser.Greater, 0); }
		public TerminalNode LessEqual() { return getToken(CParser.LessEqual, 0); }
		public TerminalNode GreaterEqual() { return getToken(CParser.GreaterEqual, 0); }
		public RelationalExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_relationalExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterRelationalExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitRelationalExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitRelationalExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final RelationalExpressionContext relationalExpression() throws RecognitionException {
		return relationalExpression(0);
	}

	private RelationalExpressionContext relationalExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		RelationalExpressionContext _localctx = new RelationalExpressionContext(_ctx, _parentState);
		RelationalExpressionContext _prevctx = _localctx;
		int _startState = 24;
		enterRecursionRule(_localctx, 24, RULE_relationalExpression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(400);
			shiftExpression(0);
			}
			_ctx.stop = _input.LT(-1);
			setState(416);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,19,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					setState(414);
					_errHandler.sync(this);
					switch ( getInterpreter().adaptivePredict(_input,18,_ctx) ) {
					case 1:
						{
						_localctx = new RelationalExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_relationalExpression);
						setState(402);
						if (!(precpred(_ctx, 4))) throw new FailedPredicateException(this, "precpred(_ctx, 4)");
						setState(403);
						match(Less);
						setState(404);
						shiftExpression(0);
						}
						break;
					case 2:
						{
						_localctx = new RelationalExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_relationalExpression);
						setState(405);
						if (!(precpred(_ctx, 3))) throw new FailedPredicateException(this, "precpred(_ctx, 3)");
						setState(406);
						match(Greater);
						setState(407);
						shiftExpression(0);
						}
						break;
					case 3:
						{
						_localctx = new RelationalExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_relationalExpression);
						setState(408);
						if (!(precpred(_ctx, 2))) throw new FailedPredicateException(this, "precpred(_ctx, 2)");
						setState(409);
						match(LessEqual);
						setState(410);
						shiftExpression(0);
						}
						break;
					case 4:
						{
						_localctx = new RelationalExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_relationalExpression);
						setState(411);
						if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
						setState(412);
						match(GreaterEqual);
						setState(413);
						shiftExpression(0);
						}
						break;
					}
					} 
				}
				setState(418);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,19,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class EqualityExpressionContext extends ParserRuleContext {
		public RelationalExpressionContext relationalExpression() {
			return getRuleContext(RelationalExpressionContext.class,0);
		}
		public EqualityExpressionContext equalityExpression() {
			return getRuleContext(EqualityExpressionContext.class,0);
		}
		public TerminalNode Equal() { return getToken(CParser.Equal, 0); }
		public TerminalNode NotEqual() { return getToken(CParser.NotEqual, 0); }
		public EqualityExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_equalityExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterEqualityExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitEqualityExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitEqualityExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final EqualityExpressionContext equalityExpression() throws RecognitionException {
		return equalityExpression(0);
	}

	private EqualityExpressionContext equalityExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		EqualityExpressionContext _localctx = new EqualityExpressionContext(_ctx, _parentState);
		EqualityExpressionContext _prevctx = _localctx;
		int _startState = 26;
		enterRecursionRule(_localctx, 26, RULE_equalityExpression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(420);
			relationalExpression(0);
			}
			_ctx.stop = _input.LT(-1);
			setState(430);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,21,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					setState(428);
					_errHandler.sync(this);
					switch ( getInterpreter().adaptivePredict(_input,20,_ctx) ) {
					case 1:
						{
						_localctx = new EqualityExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_equalityExpression);
						setState(422);
						if (!(precpred(_ctx, 2))) throw new FailedPredicateException(this, "precpred(_ctx, 2)");
						setState(423);
						match(Equal);
						setState(424);
						relationalExpression(0);
						}
						break;
					case 2:
						{
						_localctx = new EqualityExpressionContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_equalityExpression);
						setState(425);
						if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
						setState(426);
						match(NotEqual);
						setState(427);
						relationalExpression(0);
						}
						break;
					}
					} 
				}
				setState(432);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,21,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class AndExpressionContext extends ParserRuleContext {
		public EqualityExpressionContext equalityExpression() {
			return getRuleContext(EqualityExpressionContext.class,0);
		}
		public AndExpressionContext andExpression() {
			return getRuleContext(AndExpressionContext.class,0);
		}
		public TerminalNode And() { return getToken(CParser.And, 0); }
		public AndExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_andExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterAndExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitAndExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitAndExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final AndExpressionContext andExpression() throws RecognitionException {
		return andExpression(0);
	}

	private AndExpressionContext andExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		AndExpressionContext _localctx = new AndExpressionContext(_ctx, _parentState);
		AndExpressionContext _prevctx = _localctx;
		int _startState = 28;
		enterRecursionRule(_localctx, 28, RULE_andExpression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(434);
			equalityExpression(0);
			}
			_ctx.stop = _input.LT(-1);
			setState(441);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,22,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new AndExpressionContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_andExpression);
					setState(436);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(437);
					match(And);
					setState(438);
					equalityExpression(0);
					}
					} 
				}
				setState(443);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,22,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class ExclusiveOrExpressionContext extends ParserRuleContext {
		public AndExpressionContext andExpression() {
			return getRuleContext(AndExpressionContext.class,0);
		}
		public ExclusiveOrExpressionContext exclusiveOrExpression() {
			return getRuleContext(ExclusiveOrExpressionContext.class,0);
		}
		public TerminalNode Caret() { return getToken(CParser.Caret, 0); }
		public ExclusiveOrExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_exclusiveOrExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterExclusiveOrExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitExclusiveOrExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitExclusiveOrExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ExclusiveOrExpressionContext exclusiveOrExpression() throws RecognitionException {
		return exclusiveOrExpression(0);
	}

	private ExclusiveOrExpressionContext exclusiveOrExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		ExclusiveOrExpressionContext _localctx = new ExclusiveOrExpressionContext(_ctx, _parentState);
		ExclusiveOrExpressionContext _prevctx = _localctx;
		int _startState = 30;
		enterRecursionRule(_localctx, 30, RULE_exclusiveOrExpression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(445);
			andExpression(0);
			}
			_ctx.stop = _input.LT(-1);
			setState(452);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,23,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new ExclusiveOrExpressionContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_exclusiveOrExpression);
					setState(447);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(448);
					match(Caret);
					setState(449);
					andExpression(0);
					}
					} 
				}
				setState(454);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,23,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class InclusiveOrExpressionContext extends ParserRuleContext {
		public ExclusiveOrExpressionContext exclusiveOrExpression() {
			return getRuleContext(ExclusiveOrExpressionContext.class,0);
		}
		public InclusiveOrExpressionContext inclusiveOrExpression() {
			return getRuleContext(InclusiveOrExpressionContext.class,0);
		}
		public TerminalNode Or() { return getToken(CParser.Or, 0); }
		public InclusiveOrExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_inclusiveOrExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterInclusiveOrExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitInclusiveOrExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitInclusiveOrExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final InclusiveOrExpressionContext inclusiveOrExpression() throws RecognitionException {
		return inclusiveOrExpression(0);
	}

	private InclusiveOrExpressionContext inclusiveOrExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		InclusiveOrExpressionContext _localctx = new InclusiveOrExpressionContext(_ctx, _parentState);
		InclusiveOrExpressionContext _prevctx = _localctx;
		int _startState = 32;
		enterRecursionRule(_localctx, 32, RULE_inclusiveOrExpression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(456);
			exclusiveOrExpression(0);
			}
			_ctx.stop = _input.LT(-1);
			setState(463);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,24,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new InclusiveOrExpressionContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_inclusiveOrExpression);
					setState(458);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(459);
					match(Or);
					setState(460);
					exclusiveOrExpression(0);
					}
					} 
				}
				setState(465);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,24,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class LogicalAndExpressionContext extends ParserRuleContext {
		public InclusiveOrExpressionContext inclusiveOrExpression() {
			return getRuleContext(InclusiveOrExpressionContext.class,0);
		}
		public LogicalAndExpressionContext logicalAndExpression() {
			return getRuleContext(LogicalAndExpressionContext.class,0);
		}
		public TerminalNode AndAnd() { return getToken(CParser.AndAnd, 0); }
		public LogicalAndExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_logicalAndExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterLogicalAndExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitLogicalAndExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitLogicalAndExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final LogicalAndExpressionContext logicalAndExpression() throws RecognitionException {
		return logicalAndExpression(0);
	}

	private LogicalAndExpressionContext logicalAndExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		LogicalAndExpressionContext _localctx = new LogicalAndExpressionContext(_ctx, _parentState);
		LogicalAndExpressionContext _prevctx = _localctx;
		int _startState = 34;
		enterRecursionRule(_localctx, 34, RULE_logicalAndExpression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(467);
			inclusiveOrExpression(0);
			}
			_ctx.stop = _input.LT(-1);
			setState(474);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,25,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new LogicalAndExpressionContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_logicalAndExpression);
					setState(469);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(470);
					match(AndAnd);
					setState(471);
					inclusiveOrExpression(0);
					}
					} 
				}
				setState(476);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,25,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class LogicalOrExpressionContext extends ParserRuleContext {
		public LogicalAndExpressionContext logicalAndExpression() {
			return getRuleContext(LogicalAndExpressionContext.class,0);
		}
		public LogicalOrExpressionContext logicalOrExpression() {
			return getRuleContext(LogicalOrExpressionContext.class,0);
		}
		public TerminalNode OrOr() { return getToken(CParser.OrOr, 0); }
		public LogicalOrExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_logicalOrExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterLogicalOrExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitLogicalOrExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitLogicalOrExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final LogicalOrExpressionContext logicalOrExpression() throws RecognitionException {
		return logicalOrExpression(0);
	}

	private LogicalOrExpressionContext logicalOrExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		LogicalOrExpressionContext _localctx = new LogicalOrExpressionContext(_ctx, _parentState);
		LogicalOrExpressionContext _prevctx = _localctx;
		int _startState = 36;
		enterRecursionRule(_localctx, 36, RULE_logicalOrExpression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(478);
			logicalAndExpression(0);
			}
			_ctx.stop = _input.LT(-1);
			setState(485);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,26,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new LogicalOrExpressionContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_logicalOrExpression);
					setState(480);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(481);
					match(OrOr);
					setState(482);
					logicalAndExpression(0);
					}
					} 
				}
				setState(487);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,26,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class ConditionalExpressionContext extends ParserRuleContext {
		public LogicalOrExpressionContext logicalOrExpression() {
			return getRuleContext(LogicalOrExpressionContext.class,0);
		}
		public TerminalNode Question() { return getToken(CParser.Question, 0); }
		public ExpressionContext expression() {
			return getRuleContext(ExpressionContext.class,0);
		}
		public TerminalNode Colon() { return getToken(CParser.Colon, 0); }
		public ConditionalExpressionContext conditionalExpression() {
			return getRuleContext(ConditionalExpressionContext.class,0);
		}
		public ConditionalExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_conditionalExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterConditionalExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitConditionalExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitConditionalExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ConditionalExpressionContext conditionalExpression() throws RecognitionException {
		ConditionalExpressionContext _localctx = new ConditionalExpressionContext(_ctx, getState());
		enterRule(_localctx, 38, RULE_conditionalExpression);
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(488);
			logicalOrExpression(0);
			setState(494);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,27,_ctx) ) {
			case 1:
				{
				setState(489);
				match(Question);
				setState(490);
				expression(0);
				setState(491);
				match(Colon);
				setState(492);
				conditionalExpression();
				}
				break;
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class AssignmentExpressionContext extends ParserRuleContext {
		public ConditionalExpressionContext conditionalExpression() {
			return getRuleContext(ConditionalExpressionContext.class,0);
		}
		public UnaryExpressionContext unaryExpression() {
			return getRuleContext(UnaryExpressionContext.class,0);
		}
		public AssignmentOperatorContext assignmentOperator() {
			return getRuleContext(AssignmentOperatorContext.class,0);
		}
		public AssignmentExpressionContext assignmentExpression() {
			return getRuleContext(AssignmentExpressionContext.class,0);
		}
		public TerminalNode DigitSequence() { return getToken(CParser.DigitSequence, 0); }
		public AssignmentExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_assignmentExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterAssignmentExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitAssignmentExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitAssignmentExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final AssignmentExpressionContext assignmentExpression() throws RecognitionException {
		AssignmentExpressionContext _localctx = new AssignmentExpressionContext(_ctx, getState());
		enterRule(_localctx, 40, RULE_assignmentExpression);
		try {
			setState(502);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,28,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(496);
				conditionalExpression();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(497);
				unaryExpression();
				setState(498);
				assignmentOperator();
				setState(499);
				assignmentExpression();
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(501);
				match(DigitSequence);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class AssignmentOperatorContext extends ParserRuleContext {
		public TerminalNode Assign() { return getToken(CParser.Assign, 0); }
		public TerminalNode StarAssign() { return getToken(CParser.StarAssign, 0); }
		public TerminalNode DivAssign() { return getToken(CParser.DivAssign, 0); }
		public TerminalNode ModAssign() { return getToken(CParser.ModAssign, 0); }
		public TerminalNode PlusAssign() { return getToken(CParser.PlusAssign, 0); }
		public TerminalNode MinusAssign() { return getToken(CParser.MinusAssign, 0); }
		public TerminalNode LeftShiftAssign() { return getToken(CParser.LeftShiftAssign, 0); }
		public TerminalNode RightShiftAssign() { return getToken(CParser.RightShiftAssign, 0); }
		public TerminalNode AndAssign() { return getToken(CParser.AndAssign, 0); }
		public TerminalNode XorAssign() { return getToken(CParser.XorAssign, 0); }
		public TerminalNode OrAssign() { return getToken(CParser.OrAssign, 0); }
		public AssignmentOperatorContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_assignmentOperator; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterAssignmentOperator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitAssignmentOperator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitAssignmentOperator(this);
			else return visitor.visitChildren(this);
		}
	}

	public final AssignmentOperatorContext assignmentOperator() throws RecognitionException {
		AssignmentOperatorContext _localctx = new AssignmentOperatorContext(_ctx, getState());
		enterRule(_localctx, 42, RULE_assignmentOperator);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(504);
			_la = _input.LA(1);
			if ( !(((((_la - 93)) & ~0x3f) == 0 && ((1L << (_la - 93)) & ((1L << (Assign - 93)) | (1L << (StarAssign - 93)) | (1L << (DivAssign - 93)) | (1L << (ModAssign - 93)) | (1L << (PlusAssign - 93)) | (1L << (MinusAssign - 93)) | (1L << (LeftShiftAssign - 93)) | (1L << (RightShiftAssign - 93)) | (1L << (AndAssign - 93)) | (1L << (XorAssign - 93)) | (1L << (OrAssign - 93)))) != 0)) ) {
			_errHandler.recoverInline(this);
			}
			else {
				if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
				_errHandler.reportMatch(this);
				consume();
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class ExpressionContext extends ParserRuleContext {
		public AssignmentExpressionContext assignmentExpression() {
			return getRuleContext(AssignmentExpressionContext.class,0);
		}
		public ExpressionContext expression() {
			return getRuleContext(ExpressionContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public ExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_expression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ExpressionContext expression() throws RecognitionException {
		return expression(0);
	}

	private ExpressionContext expression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		ExpressionContext _localctx = new ExpressionContext(_ctx, _parentState);
		ExpressionContext _prevctx = _localctx;
		int _startState = 44;
		enterRecursionRule(_localctx, 44, RULE_expression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(507);
			assignmentExpression();
			}
			_ctx.stop = _input.LT(-1);
			setState(514);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,29,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new ExpressionContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_expression);
					setState(509);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(510);
					match(Comma);
					setState(511);
					assignmentExpression();
					}
					} 
				}
				setState(516);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,29,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class ConstantExpressionContext extends ParserRuleContext {
		public ConditionalExpressionContext conditionalExpression() {
			return getRuleContext(ConditionalExpressionContext.class,0);
		}
		public ConstantExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_constantExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterConstantExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitConstantExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitConstantExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ConstantExpressionContext constantExpression() throws RecognitionException {
		ConstantExpressionContext _localctx = new ConstantExpressionContext(_ctx, getState());
		enterRule(_localctx, 46, RULE_constantExpression);
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(517);
			conditionalExpression();
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class DeclarationContext extends ParserRuleContext {
		public DeclarationSpecifiersContext declarationSpecifiers() {
			return getRuleContext(DeclarationSpecifiersContext.class,0);
		}
		public InitDeclaratorListContext initDeclaratorList() {
			return getRuleContext(InitDeclaratorListContext.class,0);
		}
		public TerminalNode Semi() { return getToken(CParser.Semi, 0); }
		public StaticAssertDeclarationContext staticAssertDeclaration() {
			return getRuleContext(StaticAssertDeclarationContext.class,0);
		}
		public DeclarationContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_declaration; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterDeclaration(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitDeclaration(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitDeclaration(this);
			else return visitor.visitChildren(this);
		}
	}

	public final DeclarationContext declaration() throws RecognitionException {
		DeclarationContext _localctx = new DeclarationContext(_ctx, getState());
		enterRule(_localctx, 48, RULE_declaration);
		try {
			setState(527);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,30,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(519);
				declarationSpecifiers();
				setState(520);
				initDeclaratorList(0);
				setState(521);
				match(Semi);
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(523);
				declarationSpecifiers();
				setState(524);
				match(Semi);
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(526);
				staticAssertDeclaration();
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class DeclarationSpecifiersContext extends ParserRuleContext {
		public List<DeclarationSpecifierContext> declarationSpecifier() {
			return getRuleContexts(DeclarationSpecifierContext.class);
		}
		public DeclarationSpecifierContext declarationSpecifier(int i) {
			return getRuleContext(DeclarationSpecifierContext.class,i);
		}
		public DeclarationSpecifiersContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_declarationSpecifiers; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterDeclarationSpecifiers(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitDeclarationSpecifiers(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitDeclarationSpecifiers(this);
			else return visitor.visitChildren(this);
		}
	}

	public final DeclarationSpecifiersContext declarationSpecifiers() throws RecognitionException {
		DeclarationSpecifiersContext _localctx = new DeclarationSpecifiersContext(_ctx, getState());
		enterRule(_localctx, 50, RULE_declarationSpecifiers);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			setState(530); 
			_errHandler.sync(this);
			_alt = 1;
			do {
				switch (_alt) {
				case 1:
					{
					{
					setState(529);
					declarationSpecifier();
					}
					}
					break;
				default:
					throw new NoViableAltException(this);
				}
				setState(532); 
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,31,_ctx);
			} while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER );
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class DeclarationSpecifiers2Context extends ParserRuleContext {
		public List<DeclarationSpecifierContext> declarationSpecifier() {
			return getRuleContexts(DeclarationSpecifierContext.class);
		}
		public DeclarationSpecifierContext declarationSpecifier(int i) {
			return getRuleContext(DeclarationSpecifierContext.class,i);
		}
		public DeclarationSpecifiers2Context(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_declarationSpecifiers2; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterDeclarationSpecifiers2(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitDeclarationSpecifiers2(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitDeclarationSpecifiers2(this);
			else return visitor.visitChildren(this);
		}
	}

	public final DeclarationSpecifiers2Context declarationSpecifiers2() throws RecognitionException {
		DeclarationSpecifiers2Context _localctx = new DeclarationSpecifiers2Context(_ctx, getState());
		enterRule(_localctx, 52, RULE_declarationSpecifiers2);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			setState(535); 
			_errHandler.sync(this);
			_alt = 1;
			do {
				switch (_alt) {
				case 1:
					{
					{
					setState(534);
					declarationSpecifier();
					}
					}
					break;
				default:
					throw new NoViableAltException(this);
				}
				setState(537); 
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,32,_ctx);
			} while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER );
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class DeclarationSpecifierContext extends ParserRuleContext {
		public StorageClassSpecifierContext storageClassSpecifier() {
			return getRuleContext(StorageClassSpecifierContext.class,0);
		}
		public TypeSpecifierContext typeSpecifier() {
			return getRuleContext(TypeSpecifierContext.class,0);
		}
		public TypeQualifierContext typeQualifier() {
			return getRuleContext(TypeQualifierContext.class,0);
		}
		public FunctionSpecifierContext functionSpecifier() {
			return getRuleContext(FunctionSpecifierContext.class,0);
		}
		public AlignmentSpecifierContext alignmentSpecifier() {
			return getRuleContext(AlignmentSpecifierContext.class,0);
		}
		public DeclarationSpecifierContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_declarationSpecifier; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterDeclarationSpecifier(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitDeclarationSpecifier(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitDeclarationSpecifier(this);
			else return visitor.visitChildren(this);
		}
	}

	public final DeclarationSpecifierContext declarationSpecifier() throws RecognitionException {
		DeclarationSpecifierContext _localctx = new DeclarationSpecifierContext(_ctx, getState());
		enterRule(_localctx, 54, RULE_declarationSpecifier);
		try {
			setState(544);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,33,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(539);
				storageClassSpecifier();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(540);
				typeSpecifier(0);
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(541);
				typeQualifier();
				}
				break;
			case 4:
				enterOuterAlt(_localctx, 4);
				{
				setState(542);
				functionSpecifier();
				}
				break;
			case 5:
				enterOuterAlt(_localctx, 5);
				{
				setState(543);
				alignmentSpecifier();
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class InitDeclaratorListContext extends ParserRuleContext {
		public InitDeclaratorContext initDeclarator() {
			return getRuleContext(InitDeclaratorContext.class,0);
		}
		public InitDeclaratorListContext initDeclaratorList() {
			return getRuleContext(InitDeclaratorListContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public InitDeclaratorListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_initDeclaratorList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterInitDeclaratorList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitInitDeclaratorList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitInitDeclaratorList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final InitDeclaratorListContext initDeclaratorList() throws RecognitionException {
		return initDeclaratorList(0);
	}

	private InitDeclaratorListContext initDeclaratorList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		InitDeclaratorListContext _localctx = new InitDeclaratorListContext(_ctx, _parentState);
		InitDeclaratorListContext _prevctx = _localctx;
		int _startState = 56;
		enterRecursionRule(_localctx, 56, RULE_initDeclaratorList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(547);
			initDeclarator();
			}
			_ctx.stop = _input.LT(-1);
			setState(554);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,34,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new InitDeclaratorListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_initDeclaratorList);
					setState(549);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(550);
					match(Comma);
					setState(551);
					initDeclarator();
					}
					} 
				}
				setState(556);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,34,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class InitDeclaratorContext extends ParserRuleContext {
		public DeclaratorContext declarator() {
			return getRuleContext(DeclaratorContext.class,0);
		}
		public TerminalNode Assign() { return getToken(CParser.Assign, 0); }
		public InitializerContext initializer() {
			return getRuleContext(InitializerContext.class,0);
		}
		public InitDeclaratorContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_initDeclarator; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterInitDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitInitDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitInitDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}

	public final InitDeclaratorContext initDeclarator() throws RecognitionException {
		InitDeclaratorContext _localctx = new InitDeclaratorContext(_ctx, getState());
		enterRule(_localctx, 58, RULE_initDeclarator);
		try {
			setState(562);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,35,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(557);
				declarator();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(558);
				declarator();
				setState(559);
				match(Assign);
				setState(560);
				initializer();
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class StorageClassSpecifierContext extends ParserRuleContext {
		public TerminalNode Typedef() { return getToken(CParser.Typedef, 0); }
		public TerminalNode Extern() { return getToken(CParser.Extern, 0); }
		public TerminalNode Static() { return getToken(CParser.Static, 0); }
		public TerminalNode ThreadLocal() { return getToken(CParser.ThreadLocal, 0); }
		public TerminalNode Auto() { return getToken(CParser.Auto, 0); }
		public TerminalNode Register() { return getToken(CParser.Register, 0); }
		public StorageClassSpecifierContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_storageClassSpecifier; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterStorageClassSpecifier(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitStorageClassSpecifier(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitStorageClassSpecifier(this);
			else return visitor.visitChildren(this);
		}
	}

	public final StorageClassSpecifierContext storageClassSpecifier() throws RecognitionException {
		StorageClassSpecifierContext _localctx = new StorageClassSpecifierContext(_ctx, getState());
		enterRule(_localctx, 60, RULE_storageClassSpecifier);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(564);
			_la = _input.LA(1);
			if ( !((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << Auto) | (1L << Extern) | (1L << Register) | (1L << Static) | (1L << Typedef) | (1L << ThreadLocal))) != 0)) ) {
			_errHandler.recoverInline(this);
			}
			else {
				if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
				_errHandler.reportMatch(this);
				consume();
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class TypeSpecifierContext extends ParserRuleContext {
		public TerminalNode Void() { return getToken(CParser.Void, 0); }
		public TerminalNode Char() { return getToken(CParser.Char, 0); }
		public TerminalNode Short() { return getToken(CParser.Short, 0); }
		public TerminalNode Int() { return getToken(CParser.Int, 0); }
		public TerminalNode Long() { return getToken(CParser.Long, 0); }
		public TerminalNode Float() { return getToken(CParser.Float, 0); }
		public TerminalNode Double() { return getToken(CParser.Double, 0); }
		public TerminalNode Signed() { return getToken(CParser.Signed, 0); }
		public TerminalNode Unsigned() { return getToken(CParser.Unsigned, 0); }
		public TerminalNode Bool() { return getToken(CParser.Bool, 0); }
		public TerminalNode Complex() { return getToken(CParser.Complex, 0); }
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public AtomicTypeSpecifierContext atomicTypeSpecifier() {
			return getRuleContext(AtomicTypeSpecifierContext.class,0);
		}
		public StructOrUnionSpecifierContext structOrUnionSpecifier() {
			return getRuleContext(StructOrUnionSpecifierContext.class,0);
		}
		public EnumSpecifierContext enumSpecifier() {
			return getRuleContext(EnumSpecifierContext.class,0);
		}
		public TypedefNameContext typedefName() {
			return getRuleContext(TypedefNameContext.class,0);
		}
		public ConstantExpressionContext constantExpression() {
			return getRuleContext(ConstantExpressionContext.class,0);
		}
		public TypeSpecifierContext typeSpecifier() {
			return getRuleContext(TypeSpecifierContext.class,0);
		}
		public PointerContext pointer() {
			return getRuleContext(PointerContext.class,0);
		}
		public TypeSpecifierContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_typeSpecifier; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterTypeSpecifier(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitTypeSpecifier(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitTypeSpecifier(this);
			else return visitor.visitChildren(this);
		}
	}

	public final TypeSpecifierContext typeSpecifier() throws RecognitionException {
		return typeSpecifier(0);
	}

	private TypeSpecifierContext typeSpecifier(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		TypeSpecifierContext _localctx = new TypeSpecifierContext(_ctx, _parentState);
		TypeSpecifierContext _prevctx = _localctx;
		int _startState = 62;
		enterRecursionRule(_localctx, 62, RULE_typeSpecifier, _p);
		int _la;
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			setState(581);
			_errHandler.sync(this);
			switch (_input.LA(1)) {
			case T__3:
			case T__4:
			case T__5:
			case Char:
			case Double:
			case Float:
			case Int:
			case Long:
			case Short:
			case Signed:
			case Unsigned:
			case Void:
			case Bool:
			case Complex:
				{
				setState(567);
				_la = _input.LA(1);
				if ( !((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__3) | (1L << T__4) | (1L << T__5) | (1L << Char) | (1L << Double) | (1L << Float) | (1L << Int) | (1L << Long) | (1L << Short) | (1L << Signed) | (1L << Unsigned) | (1L << Void) | (1L << Bool) | (1L << Complex))) != 0)) ) {
				_errHandler.recoverInline(this);
				}
				else {
					if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
					_errHandler.reportMatch(this);
					consume();
				}
				}
				break;
			case T__0:
				{
				setState(568);
				match(T__0);
				setState(569);
				match(LeftParen);
				setState(570);
				_la = _input.LA(1);
				if ( !((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__3) | (1L << T__4) | (1L << T__5))) != 0)) ) {
				_errHandler.recoverInline(this);
				}
				else {
					if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
					_errHandler.reportMatch(this);
					consume();
				}
				setState(571);
				match(RightParen);
				}
				break;
			case Atomic:
				{
				setState(572);
				atomicTypeSpecifier();
				}
				break;
			case Struct:
			case Union:
				{
				setState(573);
				structOrUnionSpecifier();
				}
				break;
			case Enum:
				{
				setState(574);
				enumSpecifier();
				}
				break;
			case Identifier:
				{
				setState(575);
				typedefName();
				}
				break;
			case T__6:
				{
				setState(576);
				match(T__6);
				setState(577);
				match(LeftParen);
				setState(578);
				constantExpression();
				setState(579);
				match(RightParen);
				}
				break;
			default:
				throw new NoViableAltException(this);
			}
			_ctx.stop = _input.LT(-1);
			setState(587);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,37,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new TypeSpecifierContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_typeSpecifier);
					setState(583);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(584);
					pointer();
					}
					} 
				}
				setState(589);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,37,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class StructOrUnionSpecifierContext extends ParserRuleContext {
		public StructOrUnionContext structOrUnion() {
			return getRuleContext(StructOrUnionContext.class,0);
		}
		public TerminalNode LeftBrace() { return getToken(CParser.LeftBrace, 0); }
		public StructDeclarationListContext structDeclarationList() {
			return getRuleContext(StructDeclarationListContext.class,0);
		}
		public TerminalNode RightBrace() { return getToken(CParser.RightBrace, 0); }
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public StructOrUnionSpecifierContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_structOrUnionSpecifier; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterStructOrUnionSpecifier(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitStructOrUnionSpecifier(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitStructOrUnionSpecifier(this);
			else return visitor.visitChildren(this);
		}
	}

	public final StructOrUnionSpecifierContext structOrUnionSpecifier() throws RecognitionException {
		StructOrUnionSpecifierContext _localctx = new StructOrUnionSpecifierContext(_ctx, getState());
		enterRule(_localctx, 64, RULE_structOrUnionSpecifier);
		int _la;
		try {
			setState(601);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,39,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(590);
				structOrUnion();
				setState(592);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if (_la==Identifier) {
					{
					setState(591);
					match(Identifier);
					}
				}

				setState(594);
				match(LeftBrace);
				setState(595);
				structDeclarationList(0);
				setState(596);
				match(RightBrace);
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(598);
				structOrUnion();
				setState(599);
				match(Identifier);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class StructOrUnionContext extends ParserRuleContext {
		public TerminalNode Struct() { return getToken(CParser.Struct, 0); }
		public TerminalNode Union() { return getToken(CParser.Union, 0); }
		public StructOrUnionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_structOrUnion; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterStructOrUnion(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitStructOrUnion(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitStructOrUnion(this);
			else return visitor.visitChildren(this);
		}
	}

	public final StructOrUnionContext structOrUnion() throws RecognitionException {
		StructOrUnionContext _localctx = new StructOrUnionContext(_ctx, getState());
		enterRule(_localctx, 66, RULE_structOrUnion);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(603);
			_la = _input.LA(1);
			if ( !(_la==Struct || _la==Union) ) {
			_errHandler.recoverInline(this);
			}
			else {
				if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
				_errHandler.reportMatch(this);
				consume();
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class StructDeclarationListContext extends ParserRuleContext {
		public StructDeclarationContext structDeclaration() {
			return getRuleContext(StructDeclarationContext.class,0);
		}
		public StructDeclarationListContext structDeclarationList() {
			return getRuleContext(StructDeclarationListContext.class,0);
		}
		public StructDeclarationListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_structDeclarationList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterStructDeclarationList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitStructDeclarationList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitStructDeclarationList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final StructDeclarationListContext structDeclarationList() throws RecognitionException {
		return structDeclarationList(0);
	}

	private StructDeclarationListContext structDeclarationList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		StructDeclarationListContext _localctx = new StructDeclarationListContext(_ctx, _parentState);
		StructDeclarationListContext _prevctx = _localctx;
		int _startState = 68;
		enterRecursionRule(_localctx, 68, RULE_structDeclarationList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(606);
			structDeclaration();
			}
			_ctx.stop = _input.LT(-1);
			setState(612);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,40,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new StructDeclarationListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_structDeclarationList);
					setState(608);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(609);
					structDeclaration();
					}
					} 
				}
				setState(614);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,40,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class StructDeclarationContext extends ParserRuleContext {
		public SpecifierQualifierListContext specifierQualifierList() {
			return getRuleContext(SpecifierQualifierListContext.class,0);
		}
		public TerminalNode Semi() { return getToken(CParser.Semi, 0); }
		public StructDeclaratorListContext structDeclaratorList() {
			return getRuleContext(StructDeclaratorListContext.class,0);
		}
		public StaticAssertDeclarationContext staticAssertDeclaration() {
			return getRuleContext(StaticAssertDeclarationContext.class,0);
		}
		public StructDeclarationContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_structDeclaration; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterStructDeclaration(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitStructDeclaration(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitStructDeclaration(this);
			else return visitor.visitChildren(this);
		}
	}

	public final StructDeclarationContext structDeclaration() throws RecognitionException {
		StructDeclarationContext _localctx = new StructDeclarationContext(_ctx, getState());
		enterRule(_localctx, 70, RULE_structDeclaration);
		int _la;
		try {
			setState(622);
			_errHandler.sync(this);
			switch (_input.LA(1)) {
			case T__0:
			case T__3:
			case T__4:
			case T__5:
			case T__6:
			case Char:
			case Const:
			case Double:
			case Enum:
			case Float:
			case Int:
			case Long:
			case Restrict:
			case Short:
			case Signed:
			case Struct:
			case Union:
			case Unsigned:
			case Void:
			case Volatile:
			case Atomic:
			case Bool:
			case Complex:
			case Identifier:
				enterOuterAlt(_localctx, 1);
				{
				setState(615);
				specifierQualifierList();
				setState(617);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if (((((_la - 63)) & ~0x3f) == 0 && ((1L << (_la - 63)) & ((1L << (LeftParen - 63)) | (1L << (Star - 63)) | (1L << (Caret - 63)) | (1L << (Colon - 63)) | (1L << (Identifier - 63)))) != 0)) {
					{
					setState(616);
					structDeclaratorList(0);
					}
				}

				setState(619);
				match(Semi);
				}
				break;
			case StaticAssert:
				enterOuterAlt(_localctx, 2);
				{
				setState(621);
				staticAssertDeclaration();
				}
				break;
			default:
				throw new NoViableAltException(this);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class SpecifierQualifierListContext extends ParserRuleContext {
		public TypeSpecifierContext typeSpecifier() {
			return getRuleContext(TypeSpecifierContext.class,0);
		}
		public SpecifierQualifierListContext specifierQualifierList() {
			return getRuleContext(SpecifierQualifierListContext.class,0);
		}
		public TypeQualifierContext typeQualifier() {
			return getRuleContext(TypeQualifierContext.class,0);
		}
		public SpecifierQualifierListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_specifierQualifierList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterSpecifierQualifierList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitSpecifierQualifierList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitSpecifierQualifierList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final SpecifierQualifierListContext specifierQualifierList() throws RecognitionException {
		SpecifierQualifierListContext _localctx = new SpecifierQualifierListContext(_ctx, getState());
		enterRule(_localctx, 72, RULE_specifierQualifierList);
		try {
			setState(632);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,45,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(624);
				typeSpecifier(0);
				setState(626);
				_errHandler.sync(this);
				switch ( getInterpreter().adaptivePredict(_input,43,_ctx) ) {
				case 1:
					{
					setState(625);
					specifierQualifierList();
					}
					break;
				}
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(628);
				typeQualifier();
				setState(630);
				_errHandler.sync(this);
				switch ( getInterpreter().adaptivePredict(_input,44,_ctx) ) {
				case 1:
					{
					setState(629);
					specifierQualifierList();
					}
					break;
				}
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class StructDeclaratorListContext extends ParserRuleContext {
		public StructDeclaratorContext structDeclarator() {
			return getRuleContext(StructDeclaratorContext.class,0);
		}
		public StructDeclaratorListContext structDeclaratorList() {
			return getRuleContext(StructDeclaratorListContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public StructDeclaratorListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_structDeclaratorList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterStructDeclaratorList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitStructDeclaratorList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitStructDeclaratorList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final StructDeclaratorListContext structDeclaratorList() throws RecognitionException {
		return structDeclaratorList(0);
	}

	private StructDeclaratorListContext structDeclaratorList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		StructDeclaratorListContext _localctx = new StructDeclaratorListContext(_ctx, _parentState);
		StructDeclaratorListContext _prevctx = _localctx;
		int _startState = 74;
		enterRecursionRule(_localctx, 74, RULE_structDeclaratorList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(635);
			structDeclarator();
			}
			_ctx.stop = _input.LT(-1);
			setState(642);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,46,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new StructDeclaratorListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_structDeclaratorList);
					setState(637);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(638);
					match(Comma);
					setState(639);
					structDeclarator();
					}
					} 
				}
				setState(644);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,46,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class StructDeclaratorContext extends ParserRuleContext {
		public DeclaratorContext declarator() {
			return getRuleContext(DeclaratorContext.class,0);
		}
		public TerminalNode Colon() { return getToken(CParser.Colon, 0); }
		public ConstantExpressionContext constantExpression() {
			return getRuleContext(ConstantExpressionContext.class,0);
		}
		public StructDeclaratorContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_structDeclarator; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterStructDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitStructDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitStructDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}

	public final StructDeclaratorContext structDeclarator() throws RecognitionException {
		StructDeclaratorContext _localctx = new StructDeclaratorContext(_ctx, getState());
		enterRule(_localctx, 76, RULE_structDeclarator);
		int _la;
		try {
			setState(651);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,48,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(645);
				declarator();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(647);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if (((((_la - 63)) & ~0x3f) == 0 && ((1L << (_la - 63)) & ((1L << (LeftParen - 63)) | (1L << (Star - 63)) | (1L << (Caret - 63)) | (1L << (Identifier - 63)))) != 0)) {
					{
					setState(646);
					declarator();
					}
				}

				setState(649);
				match(Colon);
				setState(650);
				constantExpression();
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class EnumSpecifierContext extends ParserRuleContext {
		public TerminalNode Enum() { return getToken(CParser.Enum, 0); }
		public TerminalNode LeftBrace() { return getToken(CParser.LeftBrace, 0); }
		public EnumeratorListContext enumeratorList() {
			return getRuleContext(EnumeratorListContext.class,0);
		}
		public TerminalNode RightBrace() { return getToken(CParser.RightBrace, 0); }
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public EnumSpecifierContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_enumSpecifier; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterEnumSpecifier(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitEnumSpecifier(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitEnumSpecifier(this);
			else return visitor.visitChildren(this);
		}
	}

	public final EnumSpecifierContext enumSpecifier() throws RecognitionException {
		EnumSpecifierContext _localctx = new EnumSpecifierContext(_ctx, getState());
		enterRule(_localctx, 78, RULE_enumSpecifier);
		int _la;
		try {
			setState(672);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,51,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(653);
				match(Enum);
				setState(655);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if (_la==Identifier) {
					{
					setState(654);
					match(Identifier);
					}
				}

				setState(657);
				match(LeftBrace);
				setState(658);
				enumeratorList(0);
				setState(659);
				match(RightBrace);
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(661);
				match(Enum);
				setState(663);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if (_la==Identifier) {
					{
					setState(662);
					match(Identifier);
					}
				}

				setState(665);
				match(LeftBrace);
				setState(666);
				enumeratorList(0);
				setState(667);
				match(Comma);
				setState(668);
				match(RightBrace);
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(670);
				match(Enum);
				setState(671);
				match(Identifier);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class EnumeratorListContext extends ParserRuleContext {
		public EnumeratorContext enumerator() {
			return getRuleContext(EnumeratorContext.class,0);
		}
		public EnumeratorListContext enumeratorList() {
			return getRuleContext(EnumeratorListContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public EnumeratorListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_enumeratorList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterEnumeratorList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitEnumeratorList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitEnumeratorList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final EnumeratorListContext enumeratorList() throws RecognitionException {
		return enumeratorList(0);
	}

	private EnumeratorListContext enumeratorList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		EnumeratorListContext _localctx = new EnumeratorListContext(_ctx, _parentState);
		EnumeratorListContext _prevctx = _localctx;
		int _startState = 80;
		enterRecursionRule(_localctx, 80, RULE_enumeratorList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(675);
			enumerator();
			}
			_ctx.stop = _input.LT(-1);
			setState(682);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,52,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new EnumeratorListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_enumeratorList);
					setState(677);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(678);
					match(Comma);
					setState(679);
					enumerator();
					}
					} 
				}
				setState(684);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,52,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class EnumeratorContext extends ParserRuleContext {
		public EnumerationConstantContext enumerationConstant() {
			return getRuleContext(EnumerationConstantContext.class,0);
		}
		public TerminalNode Assign() { return getToken(CParser.Assign, 0); }
		public ConstantExpressionContext constantExpression() {
			return getRuleContext(ConstantExpressionContext.class,0);
		}
		public EnumeratorContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_enumerator; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterEnumerator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitEnumerator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitEnumerator(this);
			else return visitor.visitChildren(this);
		}
	}

	public final EnumeratorContext enumerator() throws RecognitionException {
		EnumeratorContext _localctx = new EnumeratorContext(_ctx, getState());
		enterRule(_localctx, 82, RULE_enumerator);
		try {
			setState(690);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,53,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(685);
				enumerationConstant();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(686);
				enumerationConstant();
				setState(687);
				match(Assign);
				setState(688);
				constantExpression();
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class EnumerationConstantContext extends ParserRuleContext {
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public EnumerationConstantContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_enumerationConstant; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterEnumerationConstant(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitEnumerationConstant(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitEnumerationConstant(this);
			else return visitor.visitChildren(this);
		}
	}

	public final EnumerationConstantContext enumerationConstant() throws RecognitionException {
		EnumerationConstantContext _localctx = new EnumerationConstantContext(_ctx, getState());
		enterRule(_localctx, 84, RULE_enumerationConstant);
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(692);
			match(Identifier);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class AtomicTypeSpecifierContext extends ParserRuleContext {
		public TerminalNode Atomic() { return getToken(CParser.Atomic, 0); }
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public TypeNameContext typeName() {
			return getRuleContext(TypeNameContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public AtomicTypeSpecifierContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_atomicTypeSpecifier; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterAtomicTypeSpecifier(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitAtomicTypeSpecifier(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitAtomicTypeSpecifier(this);
			else return visitor.visitChildren(this);
		}
	}

	public final AtomicTypeSpecifierContext atomicTypeSpecifier() throws RecognitionException {
		AtomicTypeSpecifierContext _localctx = new AtomicTypeSpecifierContext(_ctx, getState());
		enterRule(_localctx, 86, RULE_atomicTypeSpecifier);
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(694);
			match(Atomic);
			setState(695);
			match(LeftParen);
			setState(696);
			typeName();
			setState(697);
			match(RightParen);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class TypeQualifierContext extends ParserRuleContext {
		public TerminalNode Const() { return getToken(CParser.Const, 0); }
		public TerminalNode Restrict() { return getToken(CParser.Restrict, 0); }
		public TerminalNode Volatile() { return getToken(CParser.Volatile, 0); }
		public TerminalNode Atomic() { return getToken(CParser.Atomic, 0); }
		public TypeQualifierContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_typeQualifier; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterTypeQualifier(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitTypeQualifier(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitTypeQualifier(this);
			else return visitor.visitChildren(this);
		}
	}

	public final TypeQualifierContext typeQualifier() throws RecognitionException {
		TypeQualifierContext _localctx = new TypeQualifierContext(_ctx, getState());
		enterRule(_localctx, 88, RULE_typeQualifier);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(699);
			_la = _input.LA(1);
			if ( !((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << Const) | (1L << Restrict) | (1L << Volatile) | (1L << Atomic))) != 0)) ) {
			_errHandler.recoverInline(this);
			}
			else {
				if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
				_errHandler.reportMatch(this);
				consume();
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class FunctionSpecifierContext extends ParserRuleContext {
		public TerminalNode Inline() { return getToken(CParser.Inline, 0); }
		public TerminalNode Noreturn() { return getToken(CParser.Noreturn, 0); }
		public GccAttributeSpecifierContext gccAttributeSpecifier() {
			return getRuleContext(GccAttributeSpecifierContext.class,0);
		}
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public FunctionSpecifierContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_functionSpecifier; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterFunctionSpecifier(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitFunctionSpecifier(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitFunctionSpecifier(this);
			else return visitor.visitChildren(this);
		}
	}

	public final FunctionSpecifierContext functionSpecifier() throws RecognitionException {
		FunctionSpecifierContext _localctx = new FunctionSpecifierContext(_ctx, getState());
		enterRule(_localctx, 90, RULE_functionSpecifier);
		int _la;
		try {
			setState(707);
			_errHandler.sync(this);
			switch (_input.LA(1)) {
			case T__7:
			case T__8:
			case Inline:
			case Noreturn:
				enterOuterAlt(_localctx, 1);
				{
				setState(701);
				_la = _input.LA(1);
				if ( !((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__7) | (1L << T__8) | (1L << Inline) | (1L << Noreturn))) != 0)) ) {
				_errHandler.recoverInline(this);
				}
				else {
					if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
					_errHandler.reportMatch(this);
					consume();
				}
				}
				break;
			case T__11:
				enterOuterAlt(_localctx, 2);
				{
				setState(702);
				gccAttributeSpecifier();
				}
				break;
			case T__9:
				enterOuterAlt(_localctx, 3);
				{
				setState(703);
				match(T__9);
				setState(704);
				match(LeftParen);
				setState(705);
				match(Identifier);
				setState(706);
				match(RightParen);
				}
				break;
			default:
				throw new NoViableAltException(this);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class AlignmentSpecifierContext extends ParserRuleContext {
		public TerminalNode Alignas() { return getToken(CParser.Alignas, 0); }
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public TypeNameContext typeName() {
			return getRuleContext(TypeNameContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public ConstantExpressionContext constantExpression() {
			return getRuleContext(ConstantExpressionContext.class,0);
		}
		public AlignmentSpecifierContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_alignmentSpecifier; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterAlignmentSpecifier(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitAlignmentSpecifier(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitAlignmentSpecifier(this);
			else return visitor.visitChildren(this);
		}
	}

	public final AlignmentSpecifierContext alignmentSpecifier() throws RecognitionException {
		AlignmentSpecifierContext _localctx = new AlignmentSpecifierContext(_ctx, getState());
		enterRule(_localctx, 92, RULE_alignmentSpecifier);
		try {
			setState(719);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,55,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(709);
				match(Alignas);
				setState(710);
				match(LeftParen);
				setState(711);
				typeName();
				setState(712);
				match(RightParen);
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(714);
				match(Alignas);
				setState(715);
				match(LeftParen);
				setState(716);
				constantExpression();
				setState(717);
				match(RightParen);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class DeclaratorContext extends ParserRuleContext {
		public DirectDeclaratorContext directDeclarator() {
			return getRuleContext(DirectDeclaratorContext.class,0);
		}
		public PointerContext pointer() {
			return getRuleContext(PointerContext.class,0);
		}
		public List<GccDeclaratorExtensionContext> gccDeclaratorExtension() {
			return getRuleContexts(GccDeclaratorExtensionContext.class);
		}
		public GccDeclaratorExtensionContext gccDeclaratorExtension(int i) {
			return getRuleContext(GccDeclaratorExtensionContext.class,i);
		}
		public DeclaratorContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_declarator; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}

	public final DeclaratorContext declarator() throws RecognitionException {
		DeclaratorContext _localctx = new DeclaratorContext(_ctx, getState());
		enterRule(_localctx, 94, RULE_declarator);
		int _la;
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			setState(722);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if (_la==Star || _la==Caret) {
				{
				setState(721);
				pointer();
				}
			}

			setState(724);
			directDeclarator(0);
			setState(728);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,57,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					{
					{
					setState(725);
					gccDeclaratorExtension();
					}
					} 
				}
				setState(730);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,57,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class DirectDeclaratorContext extends ParserRuleContext {
		public DirectDeclaratorContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_directDeclarator; }
	 
		public DirectDeclaratorContext() { }
		public void copyFrom(DirectDeclaratorContext ctx) {
			super.copyFrom(ctx);
		}
	}
	public static class BitFieldDirectDeclaratorContext extends DirectDeclaratorContext {
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public TerminalNode Colon() { return getToken(CParser.Colon, 0); }
		public TerminalNode DigitSequence() { return getToken(CParser.DigitSequence, 0); }
		public BitFieldDirectDeclaratorContext(DirectDeclaratorContext ctx) { copyFrom(ctx); }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterBitFieldDirectDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitBitFieldDirectDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitBitFieldDirectDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}
	public static class AssignmentExpressionDirectDeclaratorContext extends DirectDeclaratorContext {
		public DirectDeclaratorContext directDeclarator() {
			return getRuleContext(DirectDeclaratorContext.class,0);
		}
		public TerminalNode LeftBracket() { return getToken(CParser.LeftBracket, 0); }
		public TerminalNode RightBracket() { return getToken(CParser.RightBracket, 0); }
		public TypeQualifierListContext typeQualifierList() {
			return getRuleContext(TypeQualifierListContext.class,0);
		}
		public AssignmentExpressionContext assignmentExpression() {
			return getRuleContext(AssignmentExpressionContext.class,0);
		}
		public AssignmentExpressionDirectDeclaratorContext(DirectDeclaratorContext ctx) { copyFrom(ctx); }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterAssignmentExpressionDirectDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitAssignmentExpressionDirectDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitAssignmentExpressionDirectDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}
	public static class PreStaticAssignmentExpressionDirectDeclaratorContext extends DirectDeclaratorContext {
		public DirectDeclaratorContext directDeclarator() {
			return getRuleContext(DirectDeclaratorContext.class,0);
		}
		public TerminalNode LeftBracket() { return getToken(CParser.LeftBracket, 0); }
		public TerminalNode Static() { return getToken(CParser.Static, 0); }
		public AssignmentExpressionContext assignmentExpression() {
			return getRuleContext(AssignmentExpressionContext.class,0);
		}
		public TerminalNode RightBracket() { return getToken(CParser.RightBracket, 0); }
		public TypeQualifierListContext typeQualifierList() {
			return getRuleContext(TypeQualifierListContext.class,0);
		}
		public PreStaticAssignmentExpressionDirectDeclaratorContext(DirectDeclaratorContext ctx) { copyFrom(ctx); }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterPreStaticAssignmentExpressionDirectDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitPreStaticAssignmentExpressionDirectDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitPreStaticAssignmentExpressionDirectDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}
	public static class ParameterDirectDeclaratorContext extends DirectDeclaratorContext {
		public DirectDeclaratorContext directDeclarator() {
			return getRuleContext(DirectDeclaratorContext.class,0);
		}
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public ParameterTypeListContext parameterTypeList() {
			return getRuleContext(ParameterTypeListContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public ParameterDirectDeclaratorContext(DirectDeclaratorContext ctx) { copyFrom(ctx); }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterParameterDirectDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitParameterDirectDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitParameterDirectDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}
	public static class PostStaticAssignmentExpressionDirectDeclaratorContext extends DirectDeclaratorContext {
		public DirectDeclaratorContext directDeclarator() {
			return getRuleContext(DirectDeclaratorContext.class,0);
		}
		public TerminalNode LeftBracket() { return getToken(CParser.LeftBracket, 0); }
		public TypeQualifierListContext typeQualifierList() {
			return getRuleContext(TypeQualifierListContext.class,0);
		}
		public TerminalNode Static() { return getToken(CParser.Static, 0); }
		public AssignmentExpressionContext assignmentExpression() {
			return getRuleContext(AssignmentExpressionContext.class,0);
		}
		public TerminalNode RightBracket() { return getToken(CParser.RightBracket, 0); }
		public PostStaticAssignmentExpressionDirectDeclaratorContext(DirectDeclaratorContext ctx) { copyFrom(ctx); }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterPostStaticAssignmentExpressionDirectDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitPostStaticAssignmentExpressionDirectDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitPostStaticAssignmentExpressionDirectDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}
	public static class TypeQualifierListPointerDirectDeclaratorContext extends DirectDeclaratorContext {
		public DirectDeclaratorContext directDeclarator() {
			return getRuleContext(DirectDeclaratorContext.class,0);
		}
		public TerminalNode LeftBracket() { return getToken(CParser.LeftBracket, 0); }
		public TerminalNode Star() { return getToken(CParser.Star, 0); }
		public TerminalNode RightBracket() { return getToken(CParser.RightBracket, 0); }
		public TypeQualifierListContext typeQualifierList() {
			return getRuleContext(TypeQualifierListContext.class,0);
		}
		public TypeQualifierListPointerDirectDeclaratorContext(DirectDeclaratorContext ctx) { copyFrom(ctx); }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterTypeQualifierListPointerDirectDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitTypeQualifierListPointerDirectDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitTypeQualifierListPointerDirectDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}
	public static class DeclaratorDirectDeclaratorContext extends DirectDeclaratorContext {
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public DeclaratorContext declarator() {
			return getRuleContext(DeclaratorContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public DeclaratorDirectDeclaratorContext(DirectDeclaratorContext ctx) { copyFrom(ctx); }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterDeclaratorDirectDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitDeclaratorDirectDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitDeclaratorDirectDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}
	public static class FunctionPointerDirectDeclaratorContext extends DirectDeclaratorContext {
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public PointerContext pointer() {
			return getRuleContext(PointerContext.class,0);
		}
		public DirectDeclaratorContext directDeclarator() {
			return getRuleContext(DirectDeclaratorContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public TypeSpecifierContext typeSpecifier() {
			return getRuleContext(TypeSpecifierContext.class,0);
		}
		public FunctionPointerDirectDeclaratorContext(DirectDeclaratorContext ctx) { copyFrom(ctx); }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterFunctionPointerDirectDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitFunctionPointerDirectDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitFunctionPointerDirectDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}
	public static class IdentifierListDirectDeclaratorContext extends DirectDeclaratorContext {
		public DirectDeclaratorContext directDeclarator() {
			return getRuleContext(DirectDeclaratorContext.class,0);
		}
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public IdentifierListContext identifierList() {
			return getRuleContext(IdentifierListContext.class,0);
		}
		public IdentifierListDirectDeclaratorContext(DirectDeclaratorContext ctx) { copyFrom(ctx); }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterIdentifierListDirectDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitIdentifierListDirectDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitIdentifierListDirectDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}
	public static class IdentifierDirectDeclaratorContext extends DirectDeclaratorContext {
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public IdentifierDirectDeclaratorContext(DirectDeclaratorContext ctx) { copyFrom(ctx); }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterIdentifierDirectDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitIdentifierDirectDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitIdentifierDirectDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}

	public final DirectDeclaratorContext directDeclarator() throws RecognitionException {
		return directDeclarator(0);
	}

	private DirectDeclaratorContext directDeclarator(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		DirectDeclaratorContext _localctx = new DirectDeclaratorContext(_ctx, _parentState);
		DirectDeclaratorContext _prevctx = _localctx;
		int _startState = 96;
		enterRecursionRule(_localctx, 96, RULE_directDeclarator, _p);
		int _la;
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			setState(748);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,59,_ctx) ) {
			case 1:
				{
				_localctx = new IdentifierDirectDeclaratorContext(_localctx);
				_ctx = _localctx;
				_prevctx = _localctx;

				setState(732);
				match(Identifier);
				}
				break;
			case 2:
				{
				_localctx = new DeclaratorDirectDeclaratorContext(_localctx);
				_ctx = _localctx;
				_prevctx = _localctx;
				setState(733);
				match(LeftParen);
				setState(734);
				declarator();
				setState(735);
				match(RightParen);
				}
				break;
			case 3:
				{
				_localctx = new BitFieldDirectDeclaratorContext(_localctx);
				_ctx = _localctx;
				_prevctx = _localctx;
				setState(737);
				match(Identifier);
				setState(738);
				match(Colon);
				setState(739);
				match(DigitSequence);
				}
				break;
			case 4:
				{
				_localctx = new FunctionPointerDirectDeclaratorContext(_localctx);
				_ctx = _localctx;
				_prevctx = _localctx;
				setState(740);
				match(LeftParen);
				setState(742);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__3) | (1L << T__4) | (1L << T__5) | (1L << T__6) | (1L << Char) | (1L << Double) | (1L << Enum) | (1L << Float) | (1L << Int) | (1L << Long) | (1L << Short) | (1L << Signed) | (1L << Struct) | (1L << Union) | (1L << Unsigned) | (1L << Void) | (1L << Atomic) | (1L << Bool) | (1L << Complex))) != 0) || _la==Identifier) {
					{
					setState(741);
					typeSpecifier(0);
					}
				}

				setState(744);
				pointer();
				setState(745);
				directDeclarator(0);
				setState(746);
				match(RightParen);
				}
				break;
			}
			_ctx.stop = _input.LT(-1);
			setState(795);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,66,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					setState(793);
					_errHandler.sync(this);
					switch ( getInterpreter().adaptivePredict(_input,65,_ctx) ) {
					case 1:
						{
						_localctx = new AssignmentExpressionDirectDeclaratorContext(new DirectDeclaratorContext(_parentctx, _parentState));
						pushNewRecursionContext(_localctx, _startState, RULE_directDeclarator);
						setState(750);
						if (!(precpred(_ctx, 8))) throw new FailedPredicateException(this, "precpred(_ctx, 8)");
						setState(751);
						match(LeftBracket);
						setState(753);
						_errHandler.sync(this);
						_la = _input.LA(1);
						if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << Const) | (1L << Restrict) | (1L << Volatile) | (1L << Atomic))) != 0)) {
							{
							setState(752);
							typeQualifierList(0);
							}
						}

						setState(756);
						_errHandler.sync(this);
						_la = _input.LA(1);
						if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
							{
							setState(755);
							assignmentExpression();
							}
						}

						setState(758);
						match(RightBracket);
						}
						break;
					case 2:
						{
						_localctx = new PreStaticAssignmentExpressionDirectDeclaratorContext(new DirectDeclaratorContext(_parentctx, _parentState));
						pushNewRecursionContext(_localctx, _startState, RULE_directDeclarator);
						setState(759);
						if (!(precpred(_ctx, 7))) throw new FailedPredicateException(this, "precpred(_ctx, 7)");
						setState(760);
						match(LeftBracket);
						setState(761);
						match(Static);
						setState(763);
						_errHandler.sync(this);
						_la = _input.LA(1);
						if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << Const) | (1L << Restrict) | (1L << Volatile) | (1L << Atomic))) != 0)) {
							{
							setState(762);
							typeQualifierList(0);
							}
						}

						setState(765);
						assignmentExpression();
						setState(766);
						match(RightBracket);
						}
						break;
					case 3:
						{
						_localctx = new PostStaticAssignmentExpressionDirectDeclaratorContext(new DirectDeclaratorContext(_parentctx, _parentState));
						pushNewRecursionContext(_localctx, _startState, RULE_directDeclarator);
						setState(768);
						if (!(precpred(_ctx, 6))) throw new FailedPredicateException(this, "precpred(_ctx, 6)");
						setState(769);
						match(LeftBracket);
						setState(770);
						typeQualifierList(0);
						setState(771);
						match(Static);
						setState(772);
						assignmentExpression();
						setState(773);
						match(RightBracket);
						}
						break;
					case 4:
						{
						_localctx = new TypeQualifierListPointerDirectDeclaratorContext(new DirectDeclaratorContext(_parentctx, _parentState));
						pushNewRecursionContext(_localctx, _startState, RULE_directDeclarator);
						setState(775);
						if (!(precpred(_ctx, 5))) throw new FailedPredicateException(this, "precpred(_ctx, 5)");
						setState(776);
						match(LeftBracket);
						setState(778);
						_errHandler.sync(this);
						_la = _input.LA(1);
						if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << Const) | (1L << Restrict) | (1L << Volatile) | (1L << Atomic))) != 0)) {
							{
							setState(777);
							typeQualifierList(0);
							}
						}

						setState(780);
						match(Star);
						setState(781);
						match(RightBracket);
						}
						break;
					case 5:
						{
						_localctx = new ParameterDirectDeclaratorContext(new DirectDeclaratorContext(_parentctx, _parentState));
						pushNewRecursionContext(_localctx, _startState, RULE_directDeclarator);
						setState(782);
						if (!(precpred(_ctx, 4))) throw new FailedPredicateException(this, "precpred(_ctx, 4)");
						setState(783);
						match(LeftParen);
						setState(784);
						parameterTypeList();
						setState(785);
						match(RightParen);
						}
						break;
					case 6:
						{
						_localctx = new IdentifierListDirectDeclaratorContext(new DirectDeclaratorContext(_parentctx, _parentState));
						pushNewRecursionContext(_localctx, _startState, RULE_directDeclarator);
						setState(787);
						if (!(precpred(_ctx, 3))) throw new FailedPredicateException(this, "precpred(_ctx, 3)");
						setState(788);
						match(LeftParen);
						setState(790);
						_errHandler.sync(this);
						_la = _input.LA(1);
						if (_la==Identifier) {
							{
							setState(789);
							identifierList(0);
							}
						}

						setState(792);
						match(RightParen);
						}
						break;
					}
					} 
				}
				setState(797);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,66,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class GccDeclaratorExtensionContext extends ParserRuleContext {
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public List<TerminalNode> StringLiteral() { return getTokens(CParser.StringLiteral); }
		public TerminalNode StringLiteral(int i) {
			return getToken(CParser.StringLiteral, i);
		}
		public GccAttributeSpecifierContext gccAttributeSpecifier() {
			return getRuleContext(GccAttributeSpecifierContext.class,0);
		}
		public GccDeclaratorExtensionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_gccDeclaratorExtension; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterGccDeclaratorExtension(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitGccDeclaratorExtension(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitGccDeclaratorExtension(this);
			else return visitor.visitChildren(this);
		}
	}

	public final GccDeclaratorExtensionContext gccDeclaratorExtension() throws RecognitionException {
		GccDeclaratorExtensionContext _localctx = new GccDeclaratorExtensionContext(_ctx, getState());
		enterRule(_localctx, 98, RULE_gccDeclaratorExtension);
		int _la;
		try {
			setState(807);
			_errHandler.sync(this);
			switch (_input.LA(1)) {
			case T__10:
				enterOuterAlt(_localctx, 1);
				{
				setState(798);
				match(T__10);
				setState(799);
				match(LeftParen);
				setState(801); 
				_errHandler.sync(this);
				_la = _input.LA(1);
				do {
					{
					{
					setState(800);
					match(StringLiteral);
					}
					}
					setState(803); 
					_errHandler.sync(this);
					_la = _input.LA(1);
				} while ( _la==StringLiteral );
				setState(805);
				match(RightParen);
				}
				break;
			case T__11:
				enterOuterAlt(_localctx, 2);
				{
				setState(806);
				gccAttributeSpecifier();
				}
				break;
			default:
				throw new NoViableAltException(this);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class GccAttributeSpecifierContext extends ParserRuleContext {
		public List<TerminalNode> LeftParen() { return getTokens(CParser.LeftParen); }
		public TerminalNode LeftParen(int i) {
			return getToken(CParser.LeftParen, i);
		}
		public GccAttributeListContext gccAttributeList() {
			return getRuleContext(GccAttributeListContext.class,0);
		}
		public List<TerminalNode> RightParen() { return getTokens(CParser.RightParen); }
		public TerminalNode RightParen(int i) {
			return getToken(CParser.RightParen, i);
		}
		public GccAttributeSpecifierContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_gccAttributeSpecifier; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterGccAttributeSpecifier(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitGccAttributeSpecifier(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitGccAttributeSpecifier(this);
			else return visitor.visitChildren(this);
		}
	}

	public final GccAttributeSpecifierContext gccAttributeSpecifier() throws RecognitionException {
		GccAttributeSpecifierContext _localctx = new GccAttributeSpecifierContext(_ctx, getState());
		enterRule(_localctx, 100, RULE_gccAttributeSpecifier);
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(809);
			match(T__11);
			setState(810);
			match(LeftParen);
			setState(811);
			match(LeftParen);
			setState(812);
			gccAttributeList();
			setState(813);
			match(RightParen);
			setState(814);
			match(RightParen);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class GccAttributeListContext extends ParserRuleContext {
		public List<GccAttributeContext> gccAttribute() {
			return getRuleContexts(GccAttributeContext.class);
		}
		public GccAttributeContext gccAttribute(int i) {
			return getRuleContext(GccAttributeContext.class,i);
		}
		public List<TerminalNode> Comma() { return getTokens(CParser.Comma); }
		public TerminalNode Comma(int i) {
			return getToken(CParser.Comma, i);
		}
		public GccAttributeListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_gccAttributeList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterGccAttributeList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitGccAttributeList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitGccAttributeList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final GccAttributeListContext gccAttributeList() throws RecognitionException {
		GccAttributeListContext _localctx = new GccAttributeListContext(_ctx, getState());
		enterRule(_localctx, 102, RULE_gccAttributeList);
		int _la;
		try {
			setState(825);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,70,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(816);
				gccAttribute();
				setState(821);
				_errHandler.sync(this);
				_la = _input.LA(1);
				while (_la==Comma) {
					{
					{
					setState(817);
					match(Comma);
					setState(818);
					gccAttribute();
					}
					}
					setState(823);
					_errHandler.sync(this);
					_la = _input.LA(1);
				}
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class GccAttributeContext extends ParserRuleContext {
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public List<TerminalNode> LeftParen() { return getTokens(CParser.LeftParen); }
		public TerminalNode LeftParen(int i) {
			return getToken(CParser.LeftParen, i);
		}
		public List<TerminalNode> RightParen() { return getTokens(CParser.RightParen); }
		public TerminalNode RightParen(int i) {
			return getToken(CParser.RightParen, i);
		}
		public ArgumentExpressionListContext argumentExpressionList() {
			return getRuleContext(ArgumentExpressionListContext.class,0);
		}
		public GccAttributeContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_gccAttribute; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterGccAttribute(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitGccAttribute(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitGccAttribute(this);
			else return visitor.visitChildren(this);
		}
	}

	public final GccAttributeContext gccAttribute() throws RecognitionException {
		GccAttributeContext _localctx = new GccAttributeContext(_ctx, getState());
		enterRule(_localctx, 104, RULE_gccAttribute);
		int _la;
		try {
			setState(836);
			_errHandler.sync(this);
			switch (_input.LA(1)) {
			case T__0:
			case T__1:
			case T__2:
			case T__3:
			case T__4:
			case T__5:
			case T__6:
			case T__7:
			case T__8:
			case T__9:
			case T__10:
			case T__11:
			case T__12:
			case T__13:
			case T__14:
			case T__15:
			case T__16:
			case T__17:
			case Auto:
			case Break:
			case Case:
			case Char:
			case Const:
			case Continue:
			case Default:
			case Do:
			case Double:
			case Else:
			case Enum:
			case Extern:
			case Float:
			case For:
			case Goto:
			case If:
			case Inline:
			case Int:
			case Long:
			case Register:
			case Restrict:
			case Return:
			case Short:
			case Signed:
			case Sizeof:
			case Static:
			case Struct:
			case Switch:
			case Typedef:
			case Union:
			case Unsigned:
			case Void:
			case Volatile:
			case While:
			case Alignas:
			case Alignof:
			case Atomic:
			case Bool:
			case Complex:
			case Generic:
			case Imaginary:
			case Noreturn:
			case StaticAssert:
			case ThreadLocal:
			case LeftBracket:
			case RightBracket:
			case LeftBrace:
			case RightBrace:
			case Less:
			case LessEqual:
			case Greater:
			case GreaterEqual:
			case LeftShift:
			case RightShift:
			case Plus:
			case PlusPlus:
			case Minus:
			case MinusMinus:
			case Star:
			case Div:
			case Mod:
			case And:
			case Or:
			case AndAnd:
			case OrOr:
			case Caret:
			case Not:
			case Tilde:
			case Question:
			case Colon:
			case Semi:
			case Assign:
			case StarAssign:
			case DivAssign:
			case ModAssign:
			case PlusAssign:
			case MinusAssign:
			case LeftShiftAssign:
			case RightShiftAssign:
			case AndAssign:
			case XorAssign:
			case OrAssign:
			case Equal:
			case NotEqual:
			case Arrow:
			case Dot:
			case Ellipsis:
			case Identifier:
			case Constant:
			case DigitSequence:
			case StringLiteral:
			case ComplexDefine:
			case AsmBlock:
			case LineAfterPreprocessing:
			case LineDirective:
			case PragmaDirective:
			case Whitespace:
			case Newline:
			case BlockComment:
			case LineComment:
				enterOuterAlt(_localctx, 1);
				{
				setState(827);
				_la = _input.LA(1);
				if ( _la <= 0 || (((((_la - 63)) & ~0x3f) == 0 && ((1L << (_la - 63)) & ((1L << (LeftParen - 63)) | (1L << (RightParen - 63)) | (1L << (Comma - 63)))) != 0)) ) {
				_errHandler.recoverInline(this);
				}
				else {
					if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
					_errHandler.reportMatch(this);
					consume();
				}
				setState(833);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if (_la==LeftParen) {
					{
					setState(828);
					match(LeftParen);
					setState(830);
					_errHandler.sync(this);
					_la = _input.LA(1);
					if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
						{
						setState(829);
						argumentExpressionList(0);
						}
					}

					setState(832);
					match(RightParen);
					}
				}

				}
				break;
			case RightParen:
			case Comma:
				enterOuterAlt(_localctx, 2);
				{
				}
				break;
			default:
				throw new NoViableAltException(this);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class NestedParenthesesBlockContext extends ParserRuleContext {
		public List<TerminalNode> LeftParen() { return getTokens(CParser.LeftParen); }
		public TerminalNode LeftParen(int i) {
			return getToken(CParser.LeftParen, i);
		}
		public List<NestedParenthesesBlockContext> nestedParenthesesBlock() {
			return getRuleContexts(NestedParenthesesBlockContext.class);
		}
		public NestedParenthesesBlockContext nestedParenthesesBlock(int i) {
			return getRuleContext(NestedParenthesesBlockContext.class,i);
		}
		public List<TerminalNode> RightParen() { return getTokens(CParser.RightParen); }
		public TerminalNode RightParen(int i) {
			return getToken(CParser.RightParen, i);
		}
		public NestedParenthesesBlockContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_nestedParenthesesBlock; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterNestedParenthesesBlock(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitNestedParenthesesBlock(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitNestedParenthesesBlock(this);
			else return visitor.visitChildren(this);
		}
	}

	public final NestedParenthesesBlockContext nestedParenthesesBlock() throws RecognitionException {
		NestedParenthesesBlockContext _localctx = new NestedParenthesesBlockContext(_ctx, getState());
		enterRule(_localctx, 106, RULE_nestedParenthesesBlock);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(845);
			_errHandler.sync(this);
			_la = _input.LA(1);
			while ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << T__3) | (1L << T__4) | (1L << T__5) | (1L << T__6) | (1L << T__7) | (1L << T__8) | (1L << T__9) | (1L << T__10) | (1L << T__11) | (1L << T__12) | (1L << T__13) | (1L << T__14) | (1L << T__15) | (1L << T__16) | (1L << T__17) | (1L << Auto) | (1L << Break) | (1L << Case) | (1L << Char) | (1L << Const) | (1L << Continue) | (1L << Default) | (1L << Do) | (1L << Double) | (1L << Else) | (1L << Enum) | (1L << Extern) | (1L << Float) | (1L << For) | (1L << Goto) | (1L << If) | (1L << Inline) | (1L << Int) | (1L << Long) | (1L << Register) | (1L << Restrict) | (1L << Return) | (1L << Short) | (1L << Signed) | (1L << Sizeof) | (1L << Static) | (1L << Struct) | (1L << Switch) | (1L << Typedef) | (1L << Union) | (1L << Unsigned) | (1L << Void) | (1L << Volatile) | (1L << While) | (1L << Alignas) | (1L << Alignof) | (1L << Atomic) | (1L << Bool) | (1L << Complex) | (1L << Generic) | (1L << Imaginary) | (1L << Noreturn) | (1L << StaticAssert) | (1L << ThreadLocal) | (1L << LeftParen))) != 0) || ((((_la - 65)) & ~0x3f) == 0 && ((1L << (_la - 65)) & ((1L << (LeftBracket - 65)) | (1L << (RightBracket - 65)) | (1L << (LeftBrace - 65)) | (1L << (RightBrace - 65)) | (1L << (Less - 65)) | (1L << (LessEqual - 65)) | (1L << (Greater - 65)) | (1L << (GreaterEqual - 65)) | (1L << (LeftShift - 65)) | (1L << (RightShift - 65)) | (1L << (Plus - 65)) | (1L << (PlusPlus - 65)) | (1L << (Minus - 65)) | (1L << (MinusMinus - 65)) | (1L << (Star - 65)) | (1L << (Div - 65)) | (1L << (Mod - 65)) | (1L << (And - 65)) | (1L << (Or - 65)) | (1L << (AndAnd - 65)) | (1L << (OrOr - 65)) | (1L << (Caret - 65)) | (1L << (Not - 65)) | (1L << (Tilde - 65)) | (1L << (Question - 65)) | (1L << (Colon - 65)) | (1L << (Semi - 65)) | (1L << (Comma - 65)) | (1L << (Assign - 65)) | (1L << (StarAssign - 65)) | (1L << (DivAssign - 65)) | (1L << (ModAssign - 65)) | (1L << (PlusAssign - 65)) | (1L << (MinusAssign - 65)) | (1L << (LeftShiftAssign - 65)) | (1L << (RightShiftAssign - 65)) | (1L << (AndAssign - 65)) | (1L << (XorAssign - 65)) | (1L << (OrAssign - 65)) | (1L << (Equal - 65)) | (1L << (NotEqual - 65)) | (1L << (Arrow - 65)) | (1L << (Dot - 65)) | (1L << (Ellipsis - 65)) | (1L << (Identifier - 65)) | (1L << (Constant - 65)) | (1L << (DigitSequence - 65)) | (1L << (StringLiteral - 65)) | (1L << (ComplexDefine - 65)) | (1L << (AsmBlock - 65)) | (1L << (LineAfterPreprocessing - 65)) | (1L << (LineDirective - 65)) | (1L << (PragmaDirective - 65)) | (1L << (Whitespace - 65)) | (1L << (Newline - 65)) | (1L << (BlockComment - 65)) | (1L << (LineComment - 65)))) != 0)) {
				{
				setState(843);
				_errHandler.sync(this);
				switch (_input.LA(1)) {
				case T__0:
				case T__1:
				case T__2:
				case T__3:
				case T__4:
				case T__5:
				case T__6:
				case T__7:
				case T__8:
				case T__9:
				case T__10:
				case T__11:
				case T__12:
				case T__13:
				case T__14:
				case T__15:
				case T__16:
				case T__17:
				case Auto:
				case Break:
				case Case:
				case Char:
				case Const:
				case Continue:
				case Default:
				case Do:
				case Double:
				case Else:
				case Enum:
				case Extern:
				case Float:
				case For:
				case Goto:
				case If:
				case Inline:
				case Int:
				case Long:
				case Register:
				case Restrict:
				case Return:
				case Short:
				case Signed:
				case Sizeof:
				case Static:
				case Struct:
				case Switch:
				case Typedef:
				case Union:
				case Unsigned:
				case Void:
				case Volatile:
				case While:
				case Alignas:
				case Alignof:
				case Atomic:
				case Bool:
				case Complex:
				case Generic:
				case Imaginary:
				case Noreturn:
				case StaticAssert:
				case ThreadLocal:
				case LeftBracket:
				case RightBracket:
				case LeftBrace:
				case RightBrace:
				case Less:
				case LessEqual:
				case Greater:
				case GreaterEqual:
				case LeftShift:
				case RightShift:
				case Plus:
				case PlusPlus:
				case Minus:
				case MinusMinus:
				case Star:
				case Div:
				case Mod:
				case And:
				case Or:
				case AndAnd:
				case OrOr:
				case Caret:
				case Not:
				case Tilde:
				case Question:
				case Colon:
				case Semi:
				case Comma:
				case Assign:
				case StarAssign:
				case DivAssign:
				case ModAssign:
				case PlusAssign:
				case MinusAssign:
				case LeftShiftAssign:
				case RightShiftAssign:
				case AndAssign:
				case XorAssign:
				case OrAssign:
				case Equal:
				case NotEqual:
				case Arrow:
				case Dot:
				case Ellipsis:
				case Identifier:
				case Constant:
				case DigitSequence:
				case StringLiteral:
				case ComplexDefine:
				case AsmBlock:
				case LineAfterPreprocessing:
				case LineDirective:
				case PragmaDirective:
				case Whitespace:
				case Newline:
				case BlockComment:
				case LineComment:
					{
					setState(838);
					_la = _input.LA(1);
					if ( _la <= 0 || (_la==LeftParen || _la==RightParen) ) {
					_errHandler.recoverInline(this);
					}
					else {
						if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
						_errHandler.reportMatch(this);
						consume();
					}
					}
					break;
				case LeftParen:
					{
					setState(839);
					match(LeftParen);
					setState(840);
					nestedParenthesesBlock();
					setState(841);
					match(RightParen);
					}
					break;
				default:
					throw new NoViableAltException(this);
				}
				}
				setState(847);
				_errHandler.sync(this);
				_la = _input.LA(1);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class PointerContext extends ParserRuleContext {
		public TerminalNode Star() { return getToken(CParser.Star, 0); }
		public TypeQualifierListContext typeQualifierList() {
			return getRuleContext(TypeQualifierListContext.class,0);
		}
		public PointerContext pointer() {
			return getRuleContext(PointerContext.class,0);
		}
		public TerminalNode Caret() { return getToken(CParser.Caret, 0); }
		public PointerContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_pointer; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterPointer(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitPointer(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitPointer(this);
			else return visitor.visitChildren(this);
		}
	}

	public final PointerContext pointer() throws RecognitionException {
		PointerContext _localctx = new PointerContext(_ctx, getState());
		enterRule(_localctx, 108, RULE_pointer);
		int _la;
		try {
			setState(866);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,80,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(848);
				match(Star);
				setState(850);
				_errHandler.sync(this);
				switch ( getInterpreter().adaptivePredict(_input,76,_ctx) ) {
				case 1:
					{
					setState(849);
					typeQualifierList(0);
					}
					break;
				}
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(852);
				match(Star);
				setState(854);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << Const) | (1L << Restrict) | (1L << Volatile) | (1L << Atomic))) != 0)) {
					{
					setState(853);
					typeQualifierList(0);
					}
				}

				setState(856);
				pointer();
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(857);
				match(Caret);
				setState(859);
				_errHandler.sync(this);
				switch ( getInterpreter().adaptivePredict(_input,78,_ctx) ) {
				case 1:
					{
					setState(858);
					typeQualifierList(0);
					}
					break;
				}
				}
				break;
			case 4:
				enterOuterAlt(_localctx, 4);
				{
				setState(861);
				match(Caret);
				setState(863);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << Const) | (1L << Restrict) | (1L << Volatile) | (1L << Atomic))) != 0)) {
					{
					setState(862);
					typeQualifierList(0);
					}
				}

				setState(865);
				pointer();
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class TypeQualifierListContext extends ParserRuleContext {
		public TypeQualifierContext typeQualifier() {
			return getRuleContext(TypeQualifierContext.class,0);
		}
		public TypeQualifierListContext typeQualifierList() {
			return getRuleContext(TypeQualifierListContext.class,0);
		}
		public TypeQualifierListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_typeQualifierList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterTypeQualifierList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitTypeQualifierList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitTypeQualifierList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final TypeQualifierListContext typeQualifierList() throws RecognitionException {
		return typeQualifierList(0);
	}

	private TypeQualifierListContext typeQualifierList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		TypeQualifierListContext _localctx = new TypeQualifierListContext(_ctx, _parentState);
		TypeQualifierListContext _prevctx = _localctx;
		int _startState = 110;
		enterRecursionRule(_localctx, 110, RULE_typeQualifierList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(869);
			typeQualifier();
			}
			_ctx.stop = _input.LT(-1);
			setState(875);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,81,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new TypeQualifierListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_typeQualifierList);
					setState(871);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(872);
					typeQualifier();
					}
					} 
				}
				setState(877);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,81,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class ParameterTypeListContext extends ParserRuleContext {
		public ParameterListContext parameterList() {
			return getRuleContext(ParameterListContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public TerminalNode Ellipsis() { return getToken(CParser.Ellipsis, 0); }
		public ParameterTypeListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_parameterTypeList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterParameterTypeList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitParameterTypeList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitParameterTypeList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ParameterTypeListContext parameterTypeList() throws RecognitionException {
		ParameterTypeListContext _localctx = new ParameterTypeListContext(_ctx, getState());
		enterRule(_localctx, 112, RULE_parameterTypeList);
		try {
			setState(883);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,82,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(878);
				parameterList(0);
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(879);
				parameterList(0);
				setState(880);
				match(Comma);
				setState(881);
				match(Ellipsis);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class ParameterListContext extends ParserRuleContext {
		public ParameterDeclarationContext parameterDeclaration() {
			return getRuleContext(ParameterDeclarationContext.class,0);
		}
		public ParameterListContext parameterList() {
			return getRuleContext(ParameterListContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public ParameterListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_parameterList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterParameterList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitParameterList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitParameterList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ParameterListContext parameterList() throws RecognitionException {
		return parameterList(0);
	}

	private ParameterListContext parameterList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		ParameterListContext _localctx = new ParameterListContext(_ctx, _parentState);
		ParameterListContext _prevctx = _localctx;
		int _startState = 114;
		enterRecursionRule(_localctx, 114, RULE_parameterList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(886);
			parameterDeclaration();
			}
			_ctx.stop = _input.LT(-1);
			setState(893);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,83,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new ParameterListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_parameterList);
					setState(888);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(889);
					match(Comma);
					setState(890);
					parameterDeclaration();
					}
					} 
				}
				setState(895);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,83,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class ParameterDeclarationContext extends ParserRuleContext {
		public DeclarationSpecifiersContext declarationSpecifiers() {
			return getRuleContext(DeclarationSpecifiersContext.class,0);
		}
		public DeclaratorContext declarator() {
			return getRuleContext(DeclaratorContext.class,0);
		}
		public DeclarationSpecifiers2Context declarationSpecifiers2() {
			return getRuleContext(DeclarationSpecifiers2Context.class,0);
		}
		public AbstractDeclaratorContext abstractDeclarator() {
			return getRuleContext(AbstractDeclaratorContext.class,0);
		}
		public ParameterDeclarationContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_parameterDeclaration; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterParameterDeclaration(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitParameterDeclaration(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitParameterDeclaration(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ParameterDeclarationContext parameterDeclaration() throws RecognitionException {
		ParameterDeclarationContext _localctx = new ParameterDeclarationContext(_ctx, getState());
		enterRule(_localctx, 116, RULE_parameterDeclaration);
		try {
			setState(903);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,85,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(896);
				declarationSpecifiers();
				setState(897);
				declarator();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(899);
				declarationSpecifiers2();
				setState(901);
				_errHandler.sync(this);
				switch ( getInterpreter().adaptivePredict(_input,84,_ctx) ) {
				case 1:
					{
					setState(900);
					abstractDeclarator();
					}
					break;
				}
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class IdentifierListContext extends ParserRuleContext {
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public IdentifierListContext identifierList() {
			return getRuleContext(IdentifierListContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public IdentifierListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_identifierList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterIdentifierList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitIdentifierList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitIdentifierList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final IdentifierListContext identifierList() throws RecognitionException {
		return identifierList(0);
	}

	private IdentifierListContext identifierList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		IdentifierListContext _localctx = new IdentifierListContext(_ctx, _parentState);
		IdentifierListContext _prevctx = _localctx;
		int _startState = 118;
		enterRecursionRule(_localctx, 118, RULE_identifierList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(906);
			match(Identifier);
			}
			_ctx.stop = _input.LT(-1);
			setState(913);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,86,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new IdentifierListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_identifierList);
					setState(908);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(909);
					match(Comma);
					setState(910);
					match(Identifier);
					}
					} 
				}
				setState(915);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,86,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class TypeNameContext extends ParserRuleContext {
		public SpecifierQualifierListContext specifierQualifierList() {
			return getRuleContext(SpecifierQualifierListContext.class,0);
		}
		public AbstractDeclaratorContext abstractDeclarator() {
			return getRuleContext(AbstractDeclaratorContext.class,0);
		}
		public TypeNameContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_typeName; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterTypeName(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitTypeName(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitTypeName(this);
			else return visitor.visitChildren(this);
		}
	}

	public final TypeNameContext typeName() throws RecognitionException {
		TypeNameContext _localctx = new TypeNameContext(_ctx, getState());
		enterRule(_localctx, 120, RULE_typeName);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(916);
			specifierQualifierList();
			setState(918);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if (((((_la - 63)) & ~0x3f) == 0 && ((1L << (_la - 63)) & ((1L << (LeftParen - 63)) | (1L << (LeftBracket - 63)) | (1L << (Star - 63)) | (1L << (Caret - 63)))) != 0)) {
				{
				setState(917);
				abstractDeclarator();
				}
			}

			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class AbstractDeclaratorContext extends ParserRuleContext {
		public PointerContext pointer() {
			return getRuleContext(PointerContext.class,0);
		}
		public DirectAbstractDeclaratorContext directAbstractDeclarator() {
			return getRuleContext(DirectAbstractDeclaratorContext.class,0);
		}
		public List<GccDeclaratorExtensionContext> gccDeclaratorExtension() {
			return getRuleContexts(GccDeclaratorExtensionContext.class);
		}
		public GccDeclaratorExtensionContext gccDeclaratorExtension(int i) {
			return getRuleContext(GccDeclaratorExtensionContext.class,i);
		}
		public AbstractDeclaratorContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_abstractDeclarator; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterAbstractDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitAbstractDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitAbstractDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}

	public final AbstractDeclaratorContext abstractDeclarator() throws RecognitionException {
		AbstractDeclaratorContext _localctx = new AbstractDeclaratorContext(_ctx, getState());
		enterRule(_localctx, 122, RULE_abstractDeclarator);
		int _la;
		try {
			int _alt;
			setState(931);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,90,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(920);
				pointer();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(922);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if (_la==Star || _la==Caret) {
					{
					setState(921);
					pointer();
					}
				}

				setState(924);
				directAbstractDeclarator(0);
				setState(928);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,89,_ctx);
				while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
					if ( _alt==1 ) {
						{
						{
						setState(925);
						gccDeclaratorExtension();
						}
						} 
					}
					setState(930);
					_errHandler.sync(this);
					_alt = getInterpreter().adaptivePredict(_input,89,_ctx);
				}
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class DirectAbstractDeclaratorContext extends ParserRuleContext {
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public AbstractDeclaratorContext abstractDeclarator() {
			return getRuleContext(AbstractDeclaratorContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public List<GccDeclaratorExtensionContext> gccDeclaratorExtension() {
			return getRuleContexts(GccDeclaratorExtensionContext.class);
		}
		public GccDeclaratorExtensionContext gccDeclaratorExtension(int i) {
			return getRuleContext(GccDeclaratorExtensionContext.class,i);
		}
		public TerminalNode LeftBracket() { return getToken(CParser.LeftBracket, 0); }
		public TerminalNode RightBracket() { return getToken(CParser.RightBracket, 0); }
		public TypeQualifierListContext typeQualifierList() {
			return getRuleContext(TypeQualifierListContext.class,0);
		}
		public AssignmentExpressionContext assignmentExpression() {
			return getRuleContext(AssignmentExpressionContext.class,0);
		}
		public TerminalNode Static() { return getToken(CParser.Static, 0); }
		public TerminalNode Star() { return getToken(CParser.Star, 0); }
		public ParameterTypeListContext parameterTypeList() {
			return getRuleContext(ParameterTypeListContext.class,0);
		}
		public DirectAbstractDeclaratorContext directAbstractDeclarator() {
			return getRuleContext(DirectAbstractDeclaratorContext.class,0);
		}
		public DirectAbstractDeclaratorContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_directAbstractDeclarator; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterDirectAbstractDeclarator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitDirectAbstractDeclarator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitDirectAbstractDeclarator(this);
			else return visitor.visitChildren(this);
		}
	}

	public final DirectAbstractDeclaratorContext directAbstractDeclarator() throws RecognitionException {
		return directAbstractDeclarator(0);
	}

	private DirectAbstractDeclaratorContext directAbstractDeclarator(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		DirectAbstractDeclaratorContext _localctx = new DirectAbstractDeclaratorContext(_ctx, _parentState);
		DirectAbstractDeclaratorContext _prevctx = _localctx;
		int _startState = 124;
		enterRecursionRule(_localctx, 124, RULE_directAbstractDeclarator, _p);
		int _la;
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			setState(979);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,97,_ctx) ) {
			case 1:
				{
				setState(934);
				match(LeftParen);
				setState(935);
				abstractDeclarator();
				setState(936);
				match(RightParen);
				setState(940);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,91,_ctx);
				while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
					if ( _alt==1 ) {
						{
						{
						setState(937);
						gccDeclaratorExtension();
						}
						} 
					}
					setState(942);
					_errHandler.sync(this);
					_alt = getInterpreter().adaptivePredict(_input,91,_ctx);
				}
				}
				break;
			case 2:
				{
				setState(943);
				match(LeftBracket);
				setState(945);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << Const) | (1L << Restrict) | (1L << Volatile) | (1L << Atomic))) != 0)) {
					{
					setState(944);
					typeQualifierList(0);
					}
				}

				setState(948);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
					{
					setState(947);
					assignmentExpression();
					}
				}

				setState(950);
				match(RightBracket);
				}
				break;
			case 3:
				{
				setState(951);
				match(LeftBracket);
				setState(952);
				match(Static);
				setState(954);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << Const) | (1L << Restrict) | (1L << Volatile) | (1L << Atomic))) != 0)) {
					{
					setState(953);
					typeQualifierList(0);
					}
				}

				setState(956);
				assignmentExpression();
				setState(957);
				match(RightBracket);
				}
				break;
			case 4:
				{
				setState(959);
				match(LeftBracket);
				setState(960);
				typeQualifierList(0);
				setState(961);
				match(Static);
				setState(962);
				assignmentExpression();
				setState(963);
				match(RightBracket);
				}
				break;
			case 5:
				{
				setState(965);
				match(LeftBracket);
				setState(966);
				match(Star);
				setState(967);
				match(RightBracket);
				}
				break;
			case 6:
				{
				setState(968);
				match(LeftParen);
				setState(970);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__3) | (1L << T__4) | (1L << T__5) | (1L << T__6) | (1L << T__7) | (1L << T__8) | (1L << T__9) | (1L << T__11) | (1L << Auto) | (1L << Char) | (1L << Const) | (1L << Double) | (1L << Enum) | (1L << Extern) | (1L << Float) | (1L << Inline) | (1L << Int) | (1L << Long) | (1L << Register) | (1L << Restrict) | (1L << Short) | (1L << Signed) | (1L << Static) | (1L << Struct) | (1L << Typedef) | (1L << Union) | (1L << Unsigned) | (1L << Void) | (1L << Volatile) | (1L << Alignas) | (1L << Atomic) | (1L << Bool) | (1L << Complex) | (1L << Noreturn) | (1L << ThreadLocal))) != 0) || _la==Identifier) {
					{
					setState(969);
					parameterTypeList();
					}
				}

				setState(972);
				match(RightParen);
				setState(976);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,96,_ctx);
				while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
					if ( _alt==1 ) {
						{
						{
						setState(973);
						gccDeclaratorExtension();
						}
						} 
					}
					setState(978);
					_errHandler.sync(this);
					_alt = getInterpreter().adaptivePredict(_input,96,_ctx);
				}
				}
				break;
			}
			_ctx.stop = _input.LT(-1);
			setState(1024);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,104,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					setState(1022);
					_errHandler.sync(this);
					switch ( getInterpreter().adaptivePredict(_input,103,_ctx) ) {
					case 1:
						{
						_localctx = new DirectAbstractDeclaratorContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_directAbstractDeclarator);
						setState(981);
						if (!(precpred(_ctx, 5))) throw new FailedPredicateException(this, "precpred(_ctx, 5)");
						setState(982);
						match(LeftBracket);
						setState(984);
						_errHandler.sync(this);
						_la = _input.LA(1);
						if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << Const) | (1L << Restrict) | (1L << Volatile) | (1L << Atomic))) != 0)) {
							{
							setState(983);
							typeQualifierList(0);
							}
						}

						setState(987);
						_errHandler.sync(this);
						_la = _input.LA(1);
						if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
							{
							setState(986);
							assignmentExpression();
							}
						}

						setState(989);
						match(RightBracket);
						}
						break;
					case 2:
						{
						_localctx = new DirectAbstractDeclaratorContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_directAbstractDeclarator);
						setState(990);
						if (!(precpred(_ctx, 4))) throw new FailedPredicateException(this, "precpred(_ctx, 4)");
						setState(991);
						match(LeftBracket);
						setState(992);
						match(Static);
						setState(994);
						_errHandler.sync(this);
						_la = _input.LA(1);
						if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << Const) | (1L << Restrict) | (1L << Volatile) | (1L << Atomic))) != 0)) {
							{
							setState(993);
							typeQualifierList(0);
							}
						}

						setState(996);
						assignmentExpression();
						setState(997);
						match(RightBracket);
						}
						break;
					case 3:
						{
						_localctx = new DirectAbstractDeclaratorContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_directAbstractDeclarator);
						setState(999);
						if (!(precpred(_ctx, 3))) throw new FailedPredicateException(this, "precpred(_ctx, 3)");
						setState(1000);
						match(LeftBracket);
						setState(1001);
						typeQualifierList(0);
						setState(1002);
						match(Static);
						setState(1003);
						assignmentExpression();
						setState(1004);
						match(RightBracket);
						}
						break;
					case 4:
						{
						_localctx = new DirectAbstractDeclaratorContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_directAbstractDeclarator);
						setState(1006);
						if (!(precpred(_ctx, 2))) throw new FailedPredicateException(this, "precpred(_ctx, 2)");
						setState(1007);
						match(LeftBracket);
						setState(1008);
						match(Star);
						setState(1009);
						match(RightBracket);
						}
						break;
					case 5:
						{
						_localctx = new DirectAbstractDeclaratorContext(_parentctx, _parentState);
						pushNewRecursionContext(_localctx, _startState, RULE_directAbstractDeclarator);
						setState(1010);
						if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
						setState(1011);
						match(LeftParen);
						setState(1013);
						_errHandler.sync(this);
						_la = _input.LA(1);
						if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__3) | (1L << T__4) | (1L << T__5) | (1L << T__6) | (1L << T__7) | (1L << T__8) | (1L << T__9) | (1L << T__11) | (1L << Auto) | (1L << Char) | (1L << Const) | (1L << Double) | (1L << Enum) | (1L << Extern) | (1L << Float) | (1L << Inline) | (1L << Int) | (1L << Long) | (1L << Register) | (1L << Restrict) | (1L << Short) | (1L << Signed) | (1L << Static) | (1L << Struct) | (1L << Typedef) | (1L << Union) | (1L << Unsigned) | (1L << Void) | (1L << Volatile) | (1L << Alignas) | (1L << Atomic) | (1L << Bool) | (1L << Complex) | (1L << Noreturn) | (1L << ThreadLocal))) != 0) || _la==Identifier) {
							{
							setState(1012);
							parameterTypeList();
							}
						}

						setState(1015);
						match(RightParen);
						setState(1019);
						_errHandler.sync(this);
						_alt = getInterpreter().adaptivePredict(_input,102,_ctx);
						while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
							if ( _alt==1 ) {
								{
								{
								setState(1016);
								gccDeclaratorExtension();
								}
								} 
							}
							setState(1021);
							_errHandler.sync(this);
							_alt = getInterpreter().adaptivePredict(_input,102,_ctx);
						}
						}
						break;
					}
					} 
				}
				setState(1026);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,104,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class TypedefNameContext extends ParserRuleContext {
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public TypedefNameContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_typedefName; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterTypedefName(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitTypedefName(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitTypedefName(this);
			else return visitor.visitChildren(this);
		}
	}

	public final TypedefNameContext typedefName() throws RecognitionException {
		TypedefNameContext _localctx = new TypedefNameContext(_ctx, getState());
		enterRule(_localctx, 126, RULE_typedefName);
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(1027);
			match(Identifier);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class InitializerContext extends ParserRuleContext {
		public AssignmentExpressionContext assignmentExpression() {
			return getRuleContext(AssignmentExpressionContext.class,0);
		}
		public TerminalNode LeftBrace() { return getToken(CParser.LeftBrace, 0); }
		public InitializerListContext initializerList() {
			return getRuleContext(InitializerListContext.class,0);
		}
		public TerminalNode RightBrace() { return getToken(CParser.RightBrace, 0); }
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public InitializerContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_initializer; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterInitializer(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitInitializer(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitInitializer(this);
			else return visitor.visitChildren(this);
		}
	}

	public final InitializerContext initializer() throws RecognitionException {
		InitializerContext _localctx = new InitializerContext(_ctx, getState());
		enterRule(_localctx, 128, RULE_initializer);
		try {
			setState(1039);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,105,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(1029);
				assignmentExpression();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(1030);
				match(LeftBrace);
				setState(1031);
				initializerList(0);
				setState(1032);
				match(RightBrace);
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(1034);
				match(LeftBrace);
				setState(1035);
				initializerList(0);
				setState(1036);
				match(Comma);
				setState(1037);
				match(RightBrace);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class InitializerListContext extends ParserRuleContext {
		public InitializerContext initializer() {
			return getRuleContext(InitializerContext.class,0);
		}
		public DesignationContext designation() {
			return getRuleContext(DesignationContext.class,0);
		}
		public InitializerListContext initializerList() {
			return getRuleContext(InitializerListContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public InitializerListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_initializerList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterInitializerList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitInitializerList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitInitializerList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final InitializerListContext initializerList() throws RecognitionException {
		return initializerList(0);
	}

	private InitializerListContext initializerList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		InitializerListContext _localctx = new InitializerListContext(_ctx, _parentState);
		InitializerListContext _prevctx = _localctx;
		int _startState = 130;
		enterRecursionRule(_localctx, 130, RULE_initializerList, _p);
		int _la;
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(1043);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if (_la==LeftBracket || _la==Dot) {
				{
				setState(1042);
				designation();
				}
			}

			setState(1045);
			initializer();
			}
			_ctx.stop = _input.LT(-1);
			setState(1055);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,108,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new InitializerListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_initializerList);
					setState(1047);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(1048);
					match(Comma);
					setState(1050);
					_errHandler.sync(this);
					_la = _input.LA(1);
					if (_la==LeftBracket || _la==Dot) {
						{
						setState(1049);
						designation();
						}
					}

					setState(1052);
					initializer();
					}
					} 
				}
				setState(1057);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,108,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class DesignationContext extends ParserRuleContext {
		public DesignatorListContext designatorList() {
			return getRuleContext(DesignatorListContext.class,0);
		}
		public TerminalNode Assign() { return getToken(CParser.Assign, 0); }
		public DesignationContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_designation; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterDesignation(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitDesignation(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitDesignation(this);
			else return visitor.visitChildren(this);
		}
	}

	public final DesignationContext designation() throws RecognitionException {
		DesignationContext _localctx = new DesignationContext(_ctx, getState());
		enterRule(_localctx, 132, RULE_designation);
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(1058);
			designatorList(0);
			setState(1059);
			match(Assign);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class DesignatorListContext extends ParserRuleContext {
		public DesignatorContext designator() {
			return getRuleContext(DesignatorContext.class,0);
		}
		public DesignatorListContext designatorList() {
			return getRuleContext(DesignatorListContext.class,0);
		}
		public DesignatorListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_designatorList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterDesignatorList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitDesignatorList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitDesignatorList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final DesignatorListContext designatorList() throws RecognitionException {
		return designatorList(0);
	}

	private DesignatorListContext designatorList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		DesignatorListContext _localctx = new DesignatorListContext(_ctx, _parentState);
		DesignatorListContext _prevctx = _localctx;
		int _startState = 134;
		enterRecursionRule(_localctx, 134, RULE_designatorList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(1062);
			designator();
			}
			_ctx.stop = _input.LT(-1);
			setState(1068);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,109,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new DesignatorListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_designatorList);
					setState(1064);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(1065);
					designator();
					}
					} 
				}
				setState(1070);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,109,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class DesignatorContext extends ParserRuleContext {
		public TerminalNode LeftBracket() { return getToken(CParser.LeftBracket, 0); }
		public ConstantExpressionContext constantExpression() {
			return getRuleContext(ConstantExpressionContext.class,0);
		}
		public TerminalNode RightBracket() { return getToken(CParser.RightBracket, 0); }
		public TerminalNode Dot() { return getToken(CParser.Dot, 0); }
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public DesignatorContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_designator; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterDesignator(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitDesignator(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitDesignator(this);
			else return visitor.visitChildren(this);
		}
	}

	public final DesignatorContext designator() throws RecognitionException {
		DesignatorContext _localctx = new DesignatorContext(_ctx, getState());
		enterRule(_localctx, 136, RULE_designator);
		try {
			setState(1077);
			_errHandler.sync(this);
			switch (_input.LA(1)) {
			case LeftBracket:
				enterOuterAlt(_localctx, 1);
				{
				setState(1071);
				match(LeftBracket);
				setState(1072);
				constantExpression();
				setState(1073);
				match(RightBracket);
				}
				break;
			case Dot:
				enterOuterAlt(_localctx, 2);
				{
				setState(1075);
				match(Dot);
				setState(1076);
				match(Identifier);
				}
				break;
			default:
				throw new NoViableAltException(this);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class StaticAssertDeclarationContext extends ParserRuleContext {
		public TerminalNode StaticAssert() { return getToken(CParser.StaticAssert, 0); }
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public ConstantExpressionContext constantExpression() {
			return getRuleContext(ConstantExpressionContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public TerminalNode Semi() { return getToken(CParser.Semi, 0); }
		public List<TerminalNode> StringLiteral() { return getTokens(CParser.StringLiteral); }
		public TerminalNode StringLiteral(int i) {
			return getToken(CParser.StringLiteral, i);
		}
		public StaticAssertDeclarationContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_staticAssertDeclaration; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterStaticAssertDeclaration(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitStaticAssertDeclaration(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitStaticAssertDeclaration(this);
			else return visitor.visitChildren(this);
		}
	}

	public final StaticAssertDeclarationContext staticAssertDeclaration() throws RecognitionException {
		StaticAssertDeclarationContext _localctx = new StaticAssertDeclarationContext(_ctx, getState());
		enterRule(_localctx, 138, RULE_staticAssertDeclaration);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(1079);
			match(StaticAssert);
			setState(1080);
			match(LeftParen);
			setState(1081);
			constantExpression();
			setState(1082);
			match(Comma);
			setState(1084); 
			_errHandler.sync(this);
			_la = _input.LA(1);
			do {
				{
				{
				setState(1083);
				match(StringLiteral);
				}
				}
				setState(1086); 
				_errHandler.sync(this);
				_la = _input.LA(1);
			} while ( _la==StringLiteral );
			setState(1088);
			match(RightParen);
			setState(1089);
			match(Semi);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class StatementContext extends ParserRuleContext {
		public LabeledStatementContext labeledStatement() {
			return getRuleContext(LabeledStatementContext.class,0);
		}
		public CompoundStatementContext compoundStatement() {
			return getRuleContext(CompoundStatementContext.class,0);
		}
		public ExpressionStatementContext expressionStatement() {
			return getRuleContext(ExpressionStatementContext.class,0);
		}
		public SelectionStatementContext selectionStatement() {
			return getRuleContext(SelectionStatementContext.class,0);
		}
		public IterationStatementContext iterationStatement() {
			return getRuleContext(IterationStatementContext.class,0);
		}
		public JumpStatementContext jumpStatement() {
			return getRuleContext(JumpStatementContext.class,0);
		}
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public TerminalNode Semi() { return getToken(CParser.Semi, 0); }
		public TerminalNode Volatile() { return getToken(CParser.Volatile, 0); }
		public List<LogicalOrExpressionContext> logicalOrExpression() {
			return getRuleContexts(LogicalOrExpressionContext.class);
		}
		public LogicalOrExpressionContext logicalOrExpression(int i) {
			return getRuleContext(LogicalOrExpressionContext.class,i);
		}
		public List<TerminalNode> Colon() { return getTokens(CParser.Colon); }
		public TerminalNode Colon(int i) {
			return getToken(CParser.Colon, i);
		}
		public List<TerminalNode> Comma() { return getTokens(CParser.Comma); }
		public TerminalNode Comma(int i) {
			return getToken(CParser.Comma, i);
		}
		public StatementContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_statement; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterStatement(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitStatement(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitStatement(this);
			else return visitor.visitChildren(this);
		}
	}

	public final StatementContext statement() throws RecognitionException {
		StatementContext _localctx = new StatementContext(_ctx, getState());
		enterRule(_localctx, 140, RULE_statement);
		int _la;
		try {
			setState(1128);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,117,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(1091);
				labeledStatement();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(1092);
				compoundStatement();
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(1093);
				expressionStatement();
				}
				break;
			case 4:
				enterOuterAlt(_localctx, 4);
				{
				setState(1094);
				selectionStatement();
				}
				break;
			case 5:
				enterOuterAlt(_localctx, 5);
				{
				setState(1095);
				iterationStatement();
				}
				break;
			case 6:
				enterOuterAlt(_localctx, 6);
				{
				setState(1096);
				jumpStatement();
				}
				break;
			case 7:
				enterOuterAlt(_localctx, 7);
				{
				setState(1097);
				_la = _input.LA(1);
				if ( !(_la==T__10 || _la==T__12) ) {
				_errHandler.recoverInline(this);
				}
				else {
					if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
					_errHandler.reportMatch(this);
					consume();
				}
				setState(1098);
				_la = _input.LA(1);
				if ( !(_la==T__13 || _la==Volatile) ) {
				_errHandler.recoverInline(this);
				}
				else {
					if ( _input.LA(1)==Token.EOF ) matchedEOF = true;
					_errHandler.reportMatch(this);
					consume();
				}
				setState(1099);
				match(LeftParen);
				setState(1108);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
					{
					setState(1100);
					logicalOrExpression(0);
					setState(1105);
					_errHandler.sync(this);
					_la = _input.LA(1);
					while (_la==Comma) {
						{
						{
						setState(1101);
						match(Comma);
						setState(1102);
						logicalOrExpression(0);
						}
						}
						setState(1107);
						_errHandler.sync(this);
						_la = _input.LA(1);
					}
					}
				}

				setState(1123);
				_errHandler.sync(this);
				_la = _input.LA(1);
				while (_la==Colon) {
					{
					{
					setState(1110);
					match(Colon);
					setState(1119);
					_errHandler.sync(this);
					_la = _input.LA(1);
					if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
						{
						setState(1111);
						logicalOrExpression(0);
						setState(1116);
						_errHandler.sync(this);
						_la = _input.LA(1);
						while (_la==Comma) {
							{
							{
							setState(1112);
							match(Comma);
							setState(1113);
							logicalOrExpression(0);
							}
							}
							setState(1118);
							_errHandler.sync(this);
							_la = _input.LA(1);
						}
						}
					}

					}
					}
					setState(1125);
					_errHandler.sync(this);
					_la = _input.LA(1);
				}
				setState(1126);
				match(RightParen);
				setState(1127);
				match(Semi);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class LabeledStatementContext extends ParserRuleContext {
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public TerminalNode Colon() { return getToken(CParser.Colon, 0); }
		public StatementContext statement() {
			return getRuleContext(StatementContext.class,0);
		}
		public TerminalNode Case() { return getToken(CParser.Case, 0); }
		public ConstantExpressionContext constantExpression() {
			return getRuleContext(ConstantExpressionContext.class,0);
		}
		public TerminalNode Default() { return getToken(CParser.Default, 0); }
		public LabeledStatementContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_labeledStatement; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterLabeledStatement(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitLabeledStatement(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitLabeledStatement(this);
			else return visitor.visitChildren(this);
		}
	}

	public final LabeledStatementContext labeledStatement() throws RecognitionException {
		LabeledStatementContext _localctx = new LabeledStatementContext(_ctx, getState());
		enterRule(_localctx, 142, RULE_labeledStatement);
		try {
			setState(1141);
			_errHandler.sync(this);
			switch (_input.LA(1)) {
			case Identifier:
				enterOuterAlt(_localctx, 1);
				{
				setState(1130);
				match(Identifier);
				setState(1131);
				match(Colon);
				setState(1132);
				statement();
				}
				break;
			case Case:
				enterOuterAlt(_localctx, 2);
				{
				setState(1133);
				match(Case);
				setState(1134);
				constantExpression();
				setState(1135);
				match(Colon);
				setState(1136);
				statement();
				}
				break;
			case Default:
				enterOuterAlt(_localctx, 3);
				{
				setState(1138);
				match(Default);
				setState(1139);
				match(Colon);
				setState(1140);
				statement();
				}
				break;
			default:
				throw new NoViableAltException(this);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class CompoundStatementContext extends ParserRuleContext {
		public TerminalNode LeftBrace() { return getToken(CParser.LeftBrace, 0); }
		public TerminalNode RightBrace() { return getToken(CParser.RightBrace, 0); }
		public BlockItemListContext blockItemList() {
			return getRuleContext(BlockItemListContext.class,0);
		}
		public CompoundStatementContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_compoundStatement; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterCompoundStatement(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitCompoundStatement(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitCompoundStatement(this);
			else return visitor.visitChildren(this);
		}
	}

	public final CompoundStatementContext compoundStatement() throws RecognitionException {
		CompoundStatementContext _localctx = new CompoundStatementContext(_ctx, getState());
		enterRule(_localctx, 144, RULE_compoundStatement);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(1143);
			match(LeftBrace);
			setState(1145);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << T__3) | (1L << T__4) | (1L << T__5) | (1L << T__6) | (1L << T__7) | (1L << T__8) | (1L << T__9) | (1L << T__10) | (1L << T__11) | (1L << T__12) | (1L << Auto) | (1L << Break) | (1L << Case) | (1L << Char) | (1L << Const) | (1L << Continue) | (1L << Default) | (1L << Do) | (1L << Double) | (1L << Enum) | (1L << Extern) | (1L << Float) | (1L << For) | (1L << Goto) | (1L << If) | (1L << Inline) | (1L << Int) | (1L << Long) | (1L << Register) | (1L << Restrict) | (1L << Return) | (1L << Short) | (1L << Signed) | (1L << Sizeof) | (1L << Static) | (1L << Struct) | (1L << Switch) | (1L << Typedef) | (1L << Union) | (1L << Unsigned) | (1L << Void) | (1L << Volatile) | (1L << While) | (1L << Alignas) | (1L << Alignof) | (1L << Atomic) | (1L << Bool) | (1L << Complex) | (1L << Generic) | (1L << Noreturn) | (1L << StaticAssert) | (1L << ThreadLocal) | (1L << LeftParen))) != 0) || ((((_la - 67)) & ~0x3f) == 0 && ((1L << (_la - 67)) & ((1L << (LeftBrace - 67)) | (1L << (Plus - 67)) | (1L << (PlusPlus - 67)) | (1L << (Minus - 67)) | (1L << (MinusMinus - 67)) | (1L << (Star - 67)) | (1L << (And - 67)) | (1L << (AndAnd - 67)) | (1L << (Not - 67)) | (1L << (Tilde - 67)) | (1L << (Semi - 67)) | (1L << (Identifier - 67)) | (1L << (Constant - 67)) | (1L << (DigitSequence - 67)) | (1L << (StringLiteral - 67)))) != 0)) {
				{
				setState(1144);
				blockItemList(0);
				}
			}

			setState(1147);
			match(RightBrace);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class BlockItemListContext extends ParserRuleContext {
		public BlockItemContext blockItem() {
			return getRuleContext(BlockItemContext.class,0);
		}
		public BlockItemListContext blockItemList() {
			return getRuleContext(BlockItemListContext.class,0);
		}
		public BlockItemListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_blockItemList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterBlockItemList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitBlockItemList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitBlockItemList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final BlockItemListContext blockItemList() throws RecognitionException {
		return blockItemList(0);
	}

	private BlockItemListContext blockItemList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		BlockItemListContext _localctx = new BlockItemListContext(_ctx, _parentState);
		BlockItemListContext _prevctx = _localctx;
		int _startState = 146;
		enterRecursionRule(_localctx, 146, RULE_blockItemList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(1150);
			blockItem();
			}
			_ctx.stop = _input.LT(-1);
			setState(1156);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,120,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new BlockItemListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_blockItemList);
					setState(1152);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(1153);
					blockItem();
					}
					} 
				}
				setState(1158);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,120,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class BlockItemContext extends ParserRuleContext {
		public StatementContext statement() {
			return getRuleContext(StatementContext.class,0);
		}
		public DeclarationContext declaration() {
			return getRuleContext(DeclarationContext.class,0);
		}
		public BlockItemContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_blockItem; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterBlockItem(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitBlockItem(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitBlockItem(this);
			else return visitor.visitChildren(this);
		}
	}

	public final BlockItemContext blockItem() throws RecognitionException {
		BlockItemContext _localctx = new BlockItemContext(_ctx, getState());
		enterRule(_localctx, 148, RULE_blockItem);
		try {
			setState(1161);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,121,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(1159);
				statement();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(1160);
				declaration();
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class ExpressionStatementContext extends ParserRuleContext {
		public TerminalNode Semi() { return getToken(CParser.Semi, 0); }
		public ExpressionContext expression() {
			return getRuleContext(ExpressionContext.class,0);
		}
		public ExpressionStatementContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_expressionStatement; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterExpressionStatement(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitExpressionStatement(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitExpressionStatement(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ExpressionStatementContext expressionStatement() throws RecognitionException {
		ExpressionStatementContext _localctx = new ExpressionStatementContext(_ctx, getState());
		enterRule(_localctx, 150, RULE_expressionStatement);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(1164);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
				{
				setState(1163);
				expression(0);
				}
			}

			setState(1166);
			match(Semi);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class SelectionStatementContext extends ParserRuleContext {
		public TerminalNode If() { return getToken(CParser.If, 0); }
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public ExpressionContext expression() {
			return getRuleContext(ExpressionContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public List<StatementContext> statement() {
			return getRuleContexts(StatementContext.class);
		}
		public StatementContext statement(int i) {
			return getRuleContext(StatementContext.class,i);
		}
		public TerminalNode Else() { return getToken(CParser.Else, 0); }
		public TerminalNode Switch() { return getToken(CParser.Switch, 0); }
		public SelectionStatementContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_selectionStatement; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterSelectionStatement(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitSelectionStatement(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitSelectionStatement(this);
			else return visitor.visitChildren(this);
		}
	}

	public final SelectionStatementContext selectionStatement() throws RecognitionException {
		SelectionStatementContext _localctx = new SelectionStatementContext(_ctx, getState());
		enterRule(_localctx, 152, RULE_selectionStatement);
		try {
			setState(1183);
			_errHandler.sync(this);
			switch (_input.LA(1)) {
			case If:
				enterOuterAlt(_localctx, 1);
				{
				setState(1168);
				match(If);
				setState(1169);
				match(LeftParen);
				setState(1170);
				expression(0);
				setState(1171);
				match(RightParen);
				setState(1172);
				statement();
				setState(1175);
				_errHandler.sync(this);
				switch ( getInterpreter().adaptivePredict(_input,123,_ctx) ) {
				case 1:
					{
					setState(1173);
					match(Else);
					setState(1174);
					statement();
					}
					break;
				}
				}
				break;
			case Switch:
				enterOuterAlt(_localctx, 2);
				{
				setState(1177);
				match(Switch);
				setState(1178);
				match(LeftParen);
				setState(1179);
				expression(0);
				setState(1180);
				match(RightParen);
				setState(1181);
				statement();
				}
				break;
			default:
				throw new NoViableAltException(this);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class IterationStatementContext extends ParserRuleContext {
		public TerminalNode While() { return getToken(CParser.While, 0); }
		public TerminalNode LeftParen() { return getToken(CParser.LeftParen, 0); }
		public ExpressionContext expression() {
			return getRuleContext(ExpressionContext.class,0);
		}
		public TerminalNode RightParen() { return getToken(CParser.RightParen, 0); }
		public StatementContext statement() {
			return getRuleContext(StatementContext.class,0);
		}
		public TerminalNode Do() { return getToken(CParser.Do, 0); }
		public TerminalNode Semi() { return getToken(CParser.Semi, 0); }
		public TerminalNode For() { return getToken(CParser.For, 0); }
		public ForConditionContext forCondition() {
			return getRuleContext(ForConditionContext.class,0);
		}
		public IterationStatementContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_iterationStatement; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterIterationStatement(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitIterationStatement(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitIterationStatement(this);
			else return visitor.visitChildren(this);
		}
	}

	public final IterationStatementContext iterationStatement() throws RecognitionException {
		IterationStatementContext _localctx = new IterationStatementContext(_ctx, getState());
		enterRule(_localctx, 154, RULE_iterationStatement);
		try {
			setState(1205);
			_errHandler.sync(this);
			switch (_input.LA(1)) {
			case While:
				enterOuterAlt(_localctx, 1);
				{
				setState(1185);
				match(While);
				setState(1186);
				match(LeftParen);
				setState(1187);
				expression(0);
				setState(1188);
				match(RightParen);
				setState(1189);
				statement();
				}
				break;
			case Do:
				enterOuterAlt(_localctx, 2);
				{
				setState(1191);
				match(Do);
				setState(1192);
				statement();
				setState(1193);
				match(While);
				setState(1194);
				match(LeftParen);
				setState(1195);
				expression(0);
				setState(1196);
				match(RightParen);
				setState(1197);
				match(Semi);
				}
				break;
			case For:
				enterOuterAlt(_localctx, 3);
				{
				setState(1199);
				match(For);
				setState(1200);
				match(LeftParen);
				setState(1201);
				forCondition();
				setState(1202);
				match(RightParen);
				setState(1203);
				statement();
				}
				break;
			default:
				throw new NoViableAltException(this);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class ForConditionContext extends ParserRuleContext {
		public ForDeclarationContext forDeclaration() {
			return getRuleContext(ForDeclarationContext.class,0);
		}
		public List<TerminalNode> Semi() { return getTokens(CParser.Semi); }
		public TerminalNode Semi(int i) {
			return getToken(CParser.Semi, i);
		}
		public List<ForExpressionContext> forExpression() {
			return getRuleContexts(ForExpressionContext.class);
		}
		public ForExpressionContext forExpression(int i) {
			return getRuleContext(ForExpressionContext.class,i);
		}
		public ExpressionContext expression() {
			return getRuleContext(ExpressionContext.class,0);
		}
		public ForConditionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_forCondition; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterForCondition(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitForCondition(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitForCondition(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ForConditionContext forCondition() throws RecognitionException {
		ForConditionContext _localctx = new ForConditionContext(_ctx, getState());
		enterRule(_localctx, 156, RULE_forCondition);
		int _la;
		try {
			setState(1227);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,131,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(1207);
				forDeclaration();
				setState(1208);
				match(Semi);
				setState(1210);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
					{
					setState(1209);
					forExpression(0);
					}
				}

				setState(1212);
				match(Semi);
				setState(1214);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
					{
					setState(1213);
					forExpression(0);
					}
				}

				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(1217);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
					{
					setState(1216);
					expression(0);
					}
				}

				setState(1219);
				match(Semi);
				setState(1221);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
					{
					setState(1220);
					forExpression(0);
					}
				}

				setState(1223);
				match(Semi);
				setState(1225);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
					{
					setState(1224);
					forExpression(0);
					}
				}

				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class ForDeclarationContext extends ParserRuleContext {
		public DeclarationSpecifiersContext declarationSpecifiers() {
			return getRuleContext(DeclarationSpecifiersContext.class,0);
		}
		public InitDeclaratorListContext initDeclaratorList() {
			return getRuleContext(InitDeclaratorListContext.class,0);
		}
		public ForDeclarationContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_forDeclaration; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterForDeclaration(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitForDeclaration(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitForDeclaration(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ForDeclarationContext forDeclaration() throws RecognitionException {
		ForDeclarationContext _localctx = new ForDeclarationContext(_ctx, getState());
		enterRule(_localctx, 158, RULE_forDeclaration);
		try {
			setState(1233);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,132,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(1229);
				declarationSpecifiers();
				setState(1230);
				initDeclaratorList(0);
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(1232);
				declarationSpecifiers();
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class ForExpressionContext extends ParserRuleContext {
		public AssignmentExpressionContext assignmentExpression() {
			return getRuleContext(AssignmentExpressionContext.class,0);
		}
		public ForExpressionContext forExpression() {
			return getRuleContext(ForExpressionContext.class,0);
		}
		public TerminalNode Comma() { return getToken(CParser.Comma, 0); }
		public ForExpressionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_forExpression; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterForExpression(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitForExpression(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitForExpression(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ForExpressionContext forExpression() throws RecognitionException {
		return forExpression(0);
	}

	private ForExpressionContext forExpression(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		ForExpressionContext _localctx = new ForExpressionContext(_ctx, _parentState);
		ForExpressionContext _prevctx = _localctx;
		int _startState = 160;
		enterRecursionRule(_localctx, 160, RULE_forExpression, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(1236);
			assignmentExpression();
			}
			_ctx.stop = _input.LT(-1);
			setState(1243);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,133,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new ForExpressionContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_forExpression);
					setState(1238);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(1239);
					match(Comma);
					setState(1240);
					assignmentExpression();
					}
					} 
				}
				setState(1245);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,133,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class JumpStatementContext extends ParserRuleContext {
		public TerminalNode Goto() { return getToken(CParser.Goto, 0); }
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public TerminalNode Semi() { return getToken(CParser.Semi, 0); }
		public TerminalNode Continue() { return getToken(CParser.Continue, 0); }
		public TerminalNode Break() { return getToken(CParser.Break, 0); }
		public TerminalNode Return() { return getToken(CParser.Return, 0); }
		public ExpressionContext expression() {
			return getRuleContext(ExpressionContext.class,0);
		}
		public UnaryExpressionContext unaryExpression() {
			return getRuleContext(UnaryExpressionContext.class,0);
		}
		public JumpStatementContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_jumpStatement; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterJumpStatement(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitJumpStatement(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitJumpStatement(this);
			else return visitor.visitChildren(this);
		}
	}

	public final JumpStatementContext jumpStatement() throws RecognitionException {
		JumpStatementContext _localctx = new JumpStatementContext(_ctx, getState());
		enterRule(_localctx, 162, RULE_jumpStatement);
		int _la;
		try {
			setState(1262);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,135,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(1246);
				match(Goto);
				setState(1247);
				match(Identifier);
				setState(1248);
				match(Semi);
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(1249);
				match(Continue);
				setState(1250);
				match(Semi);
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(1251);
				match(Break);
				setState(1252);
				match(Semi);
				}
				break;
			case 4:
				enterOuterAlt(_localctx, 4);
				{
				setState(1253);
				match(Return);
				setState(1255);
				_errHandler.sync(this);
				_la = _input.LA(1);
				if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__1) | (1L << T__2) | (1L << Sizeof) | (1L << Alignof) | (1L << Generic) | (1L << LeftParen))) != 0) || ((((_la - 75)) & ~0x3f) == 0 && ((1L << (_la - 75)) & ((1L << (Plus - 75)) | (1L << (PlusPlus - 75)) | (1L << (Minus - 75)) | (1L << (MinusMinus - 75)) | (1L << (Star - 75)) | (1L << (And - 75)) | (1L << (AndAnd - 75)) | (1L << (Not - 75)) | (1L << (Tilde - 75)) | (1L << (Identifier - 75)) | (1L << (Constant - 75)) | (1L << (DigitSequence - 75)) | (1L << (StringLiteral - 75)))) != 0)) {
					{
					setState(1254);
					expression(0);
					}
				}

				setState(1257);
				match(Semi);
				}
				break;
			case 5:
				enterOuterAlt(_localctx, 5);
				{
				setState(1258);
				match(Goto);
				setState(1259);
				unaryExpression();
				setState(1260);
				match(Semi);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class CompilationUnitContext extends ParserRuleContext {
		public TerminalNode EOF() { return getToken(CParser.EOF, 0); }
		public IncludeDeclarationContext includeDeclaration() {
			return getRuleContext(IncludeDeclarationContext.class,0);
		}
		public TranslationUnitContext translationUnit() {
			return getRuleContext(TranslationUnitContext.class,0);
		}
		public CompilationUnitContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_compilationUnit; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterCompilationUnit(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitCompilationUnit(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitCompilationUnit(this);
			else return visitor.visitChildren(this);
		}
	}

	public final CompilationUnitContext compilationUnit() throws RecognitionException {
		CompilationUnitContext _localctx = new CompilationUnitContext(_ctx, getState());
		enterRule(_localctx, 164, RULE_compilationUnit);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(1265);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if (_la==T__14) {
				{
				setState(1264);
				includeDeclaration();
				}
			}

			setState(1268);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__3) | (1L << T__4) | (1L << T__5) | (1L << T__6) | (1L << T__7) | (1L << T__8) | (1L << T__9) | (1L << T__11) | (1L << Auto) | (1L << Char) | (1L << Const) | (1L << Double) | (1L << Enum) | (1L << Extern) | (1L << Float) | (1L << Inline) | (1L << Int) | (1L << Long) | (1L << Register) | (1L << Restrict) | (1L << Short) | (1L << Signed) | (1L << Static) | (1L << Struct) | (1L << Typedef) | (1L << Union) | (1L << Unsigned) | (1L << Void) | (1L << Volatile) | (1L << Alignas) | (1L << Atomic) | (1L << Bool) | (1L << Complex) | (1L << Noreturn) | (1L << StaticAssert) | (1L << ThreadLocal) | (1L << LeftParen))) != 0) || ((((_la - 79)) & ~0x3f) == 0 && ((1L << (_la - 79)) & ((1L << (Star - 79)) | (1L << (Caret - 79)) | (1L << (Semi - 79)) | (1L << (Identifier - 79)))) != 0)) {
				{
				setState(1267);
				translationUnit(0);
				}
			}

			setState(1270);
			match(EOF);
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class TranslationUnitContext extends ParserRuleContext {
		public ExternalDeclarationContext externalDeclaration() {
			return getRuleContext(ExternalDeclarationContext.class,0);
		}
		public TranslationUnitContext translationUnit() {
			return getRuleContext(TranslationUnitContext.class,0);
		}
		public TranslationUnitContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_translationUnit; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterTranslationUnit(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitTranslationUnit(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitTranslationUnit(this);
			else return visitor.visitChildren(this);
		}
	}

	public final TranslationUnitContext translationUnit() throws RecognitionException {
		return translationUnit(0);
	}

	private TranslationUnitContext translationUnit(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		TranslationUnitContext _localctx = new TranslationUnitContext(_ctx, _parentState);
		TranslationUnitContext _prevctx = _localctx;
		int _startState = 166;
		enterRecursionRule(_localctx, 166, RULE_translationUnit, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(1273);
			externalDeclaration();
			}
			_ctx.stop = _input.LT(-1);
			setState(1279);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,138,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new TranslationUnitContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_translationUnit);
					setState(1275);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(1276);
					externalDeclaration();
					}
					} 
				}
				setState(1281);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,138,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class ExternalDeclarationContext extends ParserRuleContext {
		public FunctionDefinitionContext functionDefinition() {
			return getRuleContext(FunctionDefinitionContext.class,0);
		}
		public DeclarationContext declaration() {
			return getRuleContext(DeclarationContext.class,0);
		}
		public TerminalNode Semi() { return getToken(CParser.Semi, 0); }
		public ExternalDeclarationContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_externalDeclaration; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterExternalDeclaration(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitExternalDeclaration(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitExternalDeclaration(this);
			else return visitor.visitChildren(this);
		}
	}

	public final ExternalDeclarationContext externalDeclaration() throws RecognitionException {
		ExternalDeclarationContext _localctx = new ExternalDeclarationContext(_ctx, getState());
		enterRule(_localctx, 168, RULE_externalDeclaration);
		try {
			setState(1285);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,139,_ctx) ) {
			case 1:
				enterOuterAlt(_localctx, 1);
				{
				setState(1282);
				functionDefinition();
				}
				break;
			case 2:
				enterOuterAlt(_localctx, 2);
				{
				setState(1283);
				declaration();
				}
				break;
			case 3:
				enterOuterAlt(_localctx, 3);
				{
				setState(1284);
				match(Semi);
				}
				break;
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class FunctionDefinitionContext extends ParserRuleContext {
		public DeclaratorContext declarator() {
			return getRuleContext(DeclaratorContext.class,0);
		}
		public CompoundStatementContext compoundStatement() {
			return getRuleContext(CompoundStatementContext.class,0);
		}
		public DeclarationSpecifiersContext declarationSpecifiers() {
			return getRuleContext(DeclarationSpecifiersContext.class,0);
		}
		public DeclarationListContext declarationList() {
			return getRuleContext(DeclarationListContext.class,0);
		}
		public FunctionDefinitionContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_functionDefinition; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterFunctionDefinition(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitFunctionDefinition(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitFunctionDefinition(this);
			else return visitor.visitChildren(this);
		}
	}

	public final FunctionDefinitionContext functionDefinition() throws RecognitionException {
		FunctionDefinitionContext _localctx = new FunctionDefinitionContext(_ctx, getState());
		enterRule(_localctx, 170, RULE_functionDefinition);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(1288);
			_errHandler.sync(this);
			switch ( getInterpreter().adaptivePredict(_input,140,_ctx) ) {
			case 1:
				{
				setState(1287);
				declarationSpecifiers();
				}
				break;
			}
			setState(1290);
			declarator();
			setState(1292);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if ((((_la) & ~0x3f) == 0 && ((1L << _la) & ((1L << T__0) | (1L << T__3) | (1L << T__4) | (1L << T__5) | (1L << T__6) | (1L << T__7) | (1L << T__8) | (1L << T__9) | (1L << T__11) | (1L << Auto) | (1L << Char) | (1L << Const) | (1L << Double) | (1L << Enum) | (1L << Extern) | (1L << Float) | (1L << Inline) | (1L << Int) | (1L << Long) | (1L << Register) | (1L << Restrict) | (1L << Short) | (1L << Signed) | (1L << Static) | (1L << Struct) | (1L << Typedef) | (1L << Union) | (1L << Unsigned) | (1L << Void) | (1L << Volatile) | (1L << Alignas) | (1L << Atomic) | (1L << Bool) | (1L << Complex) | (1L << Noreturn) | (1L << StaticAssert) | (1L << ThreadLocal))) != 0) || _la==Identifier) {
				{
				setState(1291);
				declarationList(0);
				}
			}

			setState(1294);
			compoundStatement();
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class DeclarationListContext extends ParserRuleContext {
		public DeclarationContext declaration() {
			return getRuleContext(DeclarationContext.class,0);
		}
		public DeclarationListContext declarationList() {
			return getRuleContext(DeclarationListContext.class,0);
		}
		public DeclarationListContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_declarationList; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterDeclarationList(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitDeclarationList(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitDeclarationList(this);
			else return visitor.visitChildren(this);
		}
	}

	public final DeclarationListContext declarationList() throws RecognitionException {
		return declarationList(0);
	}

	private DeclarationListContext declarationList(int _p) throws RecognitionException {
		ParserRuleContext _parentctx = _ctx;
		int _parentState = getState();
		DeclarationListContext _localctx = new DeclarationListContext(_ctx, _parentState);
		DeclarationListContext _prevctx = _localctx;
		int _startState = 172;
		enterRecursionRule(_localctx, 172, RULE_declarationList, _p);
		try {
			int _alt;
			enterOuterAlt(_localctx, 1);
			{
			{
			setState(1297);
			declaration();
			}
			_ctx.stop = _input.LT(-1);
			setState(1303);
			_errHandler.sync(this);
			_alt = getInterpreter().adaptivePredict(_input,142,_ctx);
			while ( _alt!=2 && _alt!=org.antlr.v4.runtime.atn.ATN.INVALID_ALT_NUMBER ) {
				if ( _alt==1 ) {
					if ( _parseListeners!=null ) triggerExitRuleEvent();
					_prevctx = _localctx;
					{
					{
					_localctx = new DeclarationListContext(_parentctx, _parentState);
					pushNewRecursionContext(_localctx, _startState, RULE_declarationList);
					setState(1299);
					if (!(precpred(_ctx, 1))) throw new FailedPredicateException(this, "precpred(_ctx, 1)");
					setState(1300);
					declaration();
					}
					} 
				}
				setState(1305);
				_errHandler.sync(this);
				_alt = getInterpreter().adaptivePredict(_input,142,_ctx);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			unrollRecursionContexts(_parentctx);
		}
		return _localctx;
	}

	public static class IncludeDeclarationContext extends ParserRuleContext {
		public List<TerminalNode> Whitespace() { return getTokens(CParser.Whitespace); }
		public TerminalNode Whitespace(int i) {
			return getToken(CParser.Whitespace, i);
		}
		public IncludeIdentifierContext includeIdentifier() {
			return getRuleContext(IncludeIdentifierContext.class,0);
		}
		public TerminalNode Less() { return getToken(CParser.Less, 0); }
		public TerminalNode Greater() { return getToken(CParser.Greater, 0); }
		public IncludeDeclarationContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_includeDeclaration; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterIncludeDeclaration(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitIncludeDeclaration(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitIncludeDeclaration(this);
			else return visitor.visitChildren(this);
		}
	}

	public final IncludeDeclarationContext includeDeclaration() throws RecognitionException {
		IncludeDeclarationContext _localctx = new IncludeDeclarationContext(_ctx, getState());
		enterRule(_localctx, 174, RULE_includeDeclaration);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(1306);
			match(T__14);
			setState(1308);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if (_la==Whitespace) {
				{
				setState(1307);
				match(Whitespace);
				}
			}

			setState(1310);
			match(T__15);
			setState(1312);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if (_la==Whitespace) {
				{
				setState(1311);
				match(Whitespace);
				}
			}

			setState(1322);
			_errHandler.sync(this);
			switch (_input.LA(1)) {
			case T__16:
				{
				{
				setState(1314);
				match(T__16);
				setState(1315);
				includeIdentifier();
				setState(1316);
				match(T__16);
				}
				}
				break;
			case Less:
				{
				{
				setState(1318);
				match(Less);
				setState(1319);
				includeIdentifier();
				setState(1320);
				match(Greater);
				}
				}
				break;
			default:
				throw new NoViableAltException(this);
			}
			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public static class IncludeIdentifierContext extends ParserRuleContext {
		public TerminalNode Identifier() { return getToken(CParser.Identifier, 0); }
		public TerminalNode Dot() { return getToken(CParser.Dot, 0); }
		public IncludeIdentifierContext(ParserRuleContext parent, int invokingState) {
			super(parent, invokingState);
		}
		@Override public int getRuleIndex() { return RULE_includeIdentifier; }
		@Override
		public void enterRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).enterIncludeIdentifier(this);
		}
		@Override
		public void exitRule(ParseTreeListener listener) {
			if ( listener instanceof CListener ) ((CListener)listener).exitIncludeIdentifier(this);
		}
		@Override
		public <T> T accept(ParseTreeVisitor<? extends T> visitor) {
			if ( visitor instanceof CVisitor ) return ((CVisitor<? extends T>)visitor).visitIncludeIdentifier(this);
			else return visitor.visitChildren(this);
		}
	}

	public final IncludeIdentifierContext includeIdentifier() throws RecognitionException {
		IncludeIdentifierContext _localctx = new IncludeIdentifierContext(_ctx, getState());
		enterRule(_localctx, 176, RULE_includeIdentifier);
		int _la;
		try {
			enterOuterAlt(_localctx, 1);
			{
			setState(1324);
			match(Identifier);
			setState(1326);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if (_la==Dot) {
				{
				setState(1325);
				match(Dot);
				}
			}

			setState(1329);
			_errHandler.sync(this);
			_la = _input.LA(1);
			if (_la==T__17) {
				{
				setState(1328);
				match(T__17);
				}
			}

			}
		}
		catch (RecognitionException re) {
			_localctx.exception = re;
			_errHandler.reportError(this, re);
			_errHandler.recover(this, re);
		}
		finally {
			exitRule();
		}
		return _localctx;
	}

	public boolean sempred(RuleContext _localctx, int ruleIndex, int predIndex) {
		switch (ruleIndex) {
		case 2:
			return genericAssocList_sempred((GenericAssocListContext)_localctx, predIndex);
		case 4:
			return postfixExpression_sempred((PostfixExpressionContext)_localctx, predIndex);
		case 5:
			return argumentExpressionList_sempred((ArgumentExpressionListContext)_localctx, predIndex);
		case 9:
			return multiplicativeExpression_sempred((MultiplicativeExpressionContext)_localctx, predIndex);
		case 10:
			return additiveExpression_sempred((AdditiveExpressionContext)_localctx, predIndex);
		case 11:
			return shiftExpression_sempred((ShiftExpressionContext)_localctx, predIndex);
		case 12:
			return relationalExpression_sempred((RelationalExpressionContext)_localctx, predIndex);
		case 13:
			return equalityExpression_sempred((EqualityExpressionContext)_localctx, predIndex);
		case 14:
			return andExpression_sempred((AndExpressionContext)_localctx, predIndex);
		case 15:
			return exclusiveOrExpression_sempred((ExclusiveOrExpressionContext)_localctx, predIndex);
		case 16:
			return inclusiveOrExpression_sempred((InclusiveOrExpressionContext)_localctx, predIndex);
		case 17:
			return logicalAndExpression_sempred((LogicalAndExpressionContext)_localctx, predIndex);
		case 18:
			return logicalOrExpression_sempred((LogicalOrExpressionContext)_localctx, predIndex);
		case 22:
			return expression_sempred((ExpressionContext)_localctx, predIndex);
		case 28:
			return initDeclaratorList_sempred((InitDeclaratorListContext)_localctx, predIndex);
		case 31:
			return typeSpecifier_sempred((TypeSpecifierContext)_localctx, predIndex);
		case 34:
			return structDeclarationList_sempred((StructDeclarationListContext)_localctx, predIndex);
		case 37:
			return structDeclaratorList_sempred((StructDeclaratorListContext)_localctx, predIndex);
		case 40:
			return enumeratorList_sempred((EnumeratorListContext)_localctx, predIndex);
		case 48:
			return directDeclarator_sempred((DirectDeclaratorContext)_localctx, predIndex);
		case 55:
			return typeQualifierList_sempred((TypeQualifierListContext)_localctx, predIndex);
		case 57:
			return parameterList_sempred((ParameterListContext)_localctx, predIndex);
		case 59:
			return identifierList_sempred((IdentifierListContext)_localctx, predIndex);
		case 62:
			return directAbstractDeclarator_sempred((DirectAbstractDeclaratorContext)_localctx, predIndex);
		case 65:
			return initializerList_sempred((InitializerListContext)_localctx, predIndex);
		case 67:
			return designatorList_sempred((DesignatorListContext)_localctx, predIndex);
		case 73:
			return blockItemList_sempred((BlockItemListContext)_localctx, predIndex);
		case 80:
			return forExpression_sempred((ForExpressionContext)_localctx, predIndex);
		case 83:
			return translationUnit_sempred((TranslationUnitContext)_localctx, predIndex);
		case 86:
			return declarationList_sempred((DeclarationListContext)_localctx, predIndex);
		}
		return true;
	}
	private boolean genericAssocList_sempred(GenericAssocListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 0:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean postfixExpression_sempred(PostfixExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 1:
			return precpred(_ctx, 10);
		case 2:
			return precpred(_ctx, 9);
		case 3:
			return precpred(_ctx, 8);
		case 4:
			return precpred(_ctx, 7);
		case 5:
			return precpred(_ctx, 6);
		case 6:
			return precpred(_ctx, 5);
		}
		return true;
	}
	private boolean argumentExpressionList_sempred(ArgumentExpressionListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 7:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean multiplicativeExpression_sempred(MultiplicativeExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 8:
			return precpred(_ctx, 3);
		case 9:
			return precpred(_ctx, 2);
		case 10:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean additiveExpression_sempred(AdditiveExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 11:
			return precpred(_ctx, 2);
		case 12:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean shiftExpression_sempred(ShiftExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 13:
			return precpred(_ctx, 2);
		case 14:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean relationalExpression_sempred(RelationalExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 15:
			return precpred(_ctx, 4);
		case 16:
			return precpred(_ctx, 3);
		case 17:
			return precpred(_ctx, 2);
		case 18:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean equalityExpression_sempred(EqualityExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 19:
			return precpred(_ctx, 2);
		case 20:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean andExpression_sempred(AndExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 21:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean exclusiveOrExpression_sempred(ExclusiveOrExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 22:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean inclusiveOrExpression_sempred(InclusiveOrExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 23:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean logicalAndExpression_sempred(LogicalAndExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 24:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean logicalOrExpression_sempred(LogicalOrExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 25:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean expression_sempred(ExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 26:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean initDeclaratorList_sempred(InitDeclaratorListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 27:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean typeSpecifier_sempred(TypeSpecifierContext _localctx, int predIndex) {
		switch (predIndex) {
		case 28:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean structDeclarationList_sempred(StructDeclarationListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 29:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean structDeclaratorList_sempred(StructDeclaratorListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 30:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean enumeratorList_sempred(EnumeratorListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 31:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean directDeclarator_sempred(DirectDeclaratorContext _localctx, int predIndex) {
		switch (predIndex) {
		case 32:
			return precpred(_ctx, 8);
		case 33:
			return precpred(_ctx, 7);
		case 34:
			return precpred(_ctx, 6);
		case 35:
			return precpred(_ctx, 5);
		case 36:
			return precpred(_ctx, 4);
		case 37:
			return precpred(_ctx, 3);
		}
		return true;
	}
	private boolean typeQualifierList_sempred(TypeQualifierListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 38:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean parameterList_sempred(ParameterListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 39:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean identifierList_sempred(IdentifierListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 40:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean directAbstractDeclarator_sempred(DirectAbstractDeclaratorContext _localctx, int predIndex) {
		switch (predIndex) {
		case 41:
			return precpred(_ctx, 5);
		case 42:
			return precpred(_ctx, 4);
		case 43:
			return precpred(_ctx, 3);
		case 44:
			return precpred(_ctx, 2);
		case 45:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean initializerList_sempred(InitializerListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 46:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean designatorList_sempred(DesignatorListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 47:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean blockItemList_sempred(BlockItemListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 48:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean forExpression_sempred(ForExpressionContext _localctx, int predIndex) {
		switch (predIndex) {
		case 49:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean translationUnit_sempred(TranslationUnitContext _localctx, int predIndex) {
		switch (predIndex) {
		case 50:
			return precpred(_ctx, 1);
		}
		return true;
	}
	private boolean declarationList_sempred(DeclarationListContext _localctx, int predIndex) {
		switch (predIndex) {
		case 51:
			return precpred(_ctx, 1);
		}
		return true;
	}

	public static final String _serializedATN =
		"\3\u608b\ua72a\u8133\ub9ed\u417c\u3be7\u7786\u5964\3{\u0536\4\2\t\2\4"+
		"\3\t\3\4\4\t\4\4\5\t\5\4\6\t\6\4\7\t\7\4\b\t\b\4\t\t\t\4\n\t\n\4\13\t"+
		"\13\4\f\t\f\4\r\t\r\4\16\t\16\4\17\t\17\4\20\t\20\4\21\t\21\4\22\t\22"+
		"\4\23\t\23\4\24\t\24\4\25\t\25\4\26\t\26\4\27\t\27\4\30\t\30\4\31\t\31"+
		"\4\32\t\32\4\33\t\33\4\34\t\34\4\35\t\35\4\36\t\36\4\37\t\37\4 \t \4!"+
		"\t!\4\"\t\"\4#\t#\4$\t$\4%\t%\4&\t&\4\'\t\'\4(\t(\4)\t)\4*\t*\4+\t+\4"+
		",\t,\4-\t-\4.\t.\4/\t/\4\60\t\60\4\61\t\61\4\62\t\62\4\63\t\63\4\64\t"+
		"\64\4\65\t\65\4\66\t\66\4\67\t\67\48\t8\49\t9\4:\t:\4;\t;\4<\t<\4=\t="+
		"\4>\t>\4?\t?\4@\t@\4A\tA\4B\tB\4C\tC\4D\tD\4E\tE\4F\tF\4G\tG\4H\tH\4I"+
		"\tI\4J\tJ\4K\tK\4L\tL\4M\tM\4N\tN\4O\tO\4P\tP\4Q\tQ\4R\tR\4S\tS\4T\tT"+
		"\4U\tU\4V\tV\4W\tW\4X\tX\4Y\tY\4Z\tZ\3\2\3\2\3\2\6\2\u00b8\n\2\r\2\16"+
		"\2\u00b9\3\2\3\2\3\2\3\2\3\2\3\2\5\2\u00c2\n\2\3\2\3\2\3\2\3\2\3\2\3\2"+
		"\3\2\3\2\3\2\3\2\3\2\3\2\3\2\3\2\3\2\3\2\3\2\3\2\5\2\u00d6\n\2\3\3\3\3"+
		"\3\3\3\3\3\3\3\3\3\3\3\4\3\4\3\4\3\4\3\4\3\4\7\4\u00e5\n\4\f\4\16\4\u00e8"+
		"\13\4\3\5\3\5\3\5\3\5\3\5\3\5\3\5\5\5\u00f1\n\5\3\6\3\6\3\6\3\6\3\6\3"+
		"\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6"+
		"\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\5\6\u0115\n\6\3\6\3\6\3\6"+
		"\3\6\3\6\3\6\3\6\3\6\5\6\u011f\n\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6\3\6"+
		"\3\6\3\6\7\6\u012c\n\6\f\6\16\6\u012f\13\6\3\7\3\7\3\7\3\7\3\7\3\7\7\7"+
		"\u0137\n\7\f\7\16\7\u013a\13\7\3\b\3\b\3\b\3\b\3\b\3\b\3\b\3\b\3\b\3\b"+
		"\3\b\3\b\3\b\3\b\3\b\3\b\3\b\3\b\3\b\3\b\3\b\3\b\5\b\u0152\n\b\3\t\3\t"+
		"\3\n\3\n\3\n\3\n\3\n\3\n\3\n\3\n\3\n\3\n\3\n\3\n\3\n\5\n\u0163\n\n\3\13"+
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		"\2\2\u0118\u0119\5.\30\2\u0119\u011a\7D\2\2\u011a\u012c\3\2\2\2\u011b"+
		"\u011c\f\13\2\2\u011c\u011e\7A\2\2\u011d\u011f\5\f\7\2\u011e\u011d\3\2"+
		"\2\2\u011e\u011f\3\2\2\2\u011f\u0120\3\2\2\2\u0120\u012c\7B\2\2\u0121"+
		"\u0122\f\n\2\2\u0122\u0123\7m\2\2\u0123\u012c\7o\2\2\u0124\u0125\f\t\2"+
		"\2\u0125\u0126\7l\2\2\u0126\u012c\7o\2\2\u0127\u0128\f\b\2\2\u0128\u012c"+
		"\7N\2\2\u0129\u012a\f\7\2\2\u012a\u012c\7P\2\2\u012b\u0116\3\2\2\2\u012b"+
		"\u011b\3\2\2\2\u012b\u0121\3\2\2\2\u012b\u0124\3\2\2\2\u012b\u0127\3\2"+
		"\2\2\u012b\u0129\3\2\2\2\u012c\u012f\3\2\2\2\u012d\u012b\3\2\2\2\u012d"+
		"\u012e\3\2\2\2\u012e\13\3\2\2\2\u012f\u012d\3\2\2\2\u0130\u0131\b\7\1"+
		"\2\u0131\u0132\5*\26\2\u0132\u0138\3\2\2\2\u0133\u0134\f\3\2\2\u0134\u0135"+
		"\7^\2\2\u0135\u0137\5*\26\2\u0136\u0133\3\2\2\2\u0137\u013a\3\2\2\2\u0138"+
		"\u0136\3\2\2\2\u0138\u0139\3\2\2\2\u0139\r\3\2\2\2\u013a\u0138\3\2\2\2"+
		"\u013b\u0152\5\n\6\2\u013c\u013d\7N\2\2\u013d\u0152\5\16\b\2\u013e\u013f"+
		"\7P\2\2\u013f\u0152\5\16\b\2\u0140\u0141\5\20\t\2\u0141\u0142\5\22\n\2"+
		"\u0142\u0152\3\2\2\2\u0143\u0144\7-\2\2\u0144\u0152\5\16\b\2\u0145\u0146"+
		"\7-\2\2\u0146\u0147\7A\2\2\u0147\u0148\5z>\2\u0148\u0149\7B\2\2\u0149"+
		"\u0152\3\2\2\2\u014a\u014b\78\2\2\u014b\u014c\7A\2\2\u014c\u014d\5z>\2"+
		"\u014d\u014e\7B\2\2\u014e\u0152\3\2\2\2\u014f\u0150\7V\2\2\u0150\u0152"+
		"\7o\2\2\u0151\u013b\3\2\2\2\u0151\u013c\3\2\2\2\u0151\u013e\3\2\2\2\u0151"+
		"\u0140\3\2\2\2\u0151\u0143\3\2\2\2\u0151\u0145\3\2\2\2\u0151\u014a\3\2"+
		"\2\2\u0151\u014f\3\2\2\2\u0152\17\3\2\2\2\u0153\u0154\t\2\2\2\u0154\21"+
		"\3\2\2\2\u0155\u0156\7A\2\2\u0156\u0157\5z>\2\u0157\u0158\7B\2\2\u0158"+
		"\u0159\5\22\n\2\u0159\u0163\3\2\2\2\u015a\u015b\7\3\2\2\u015b\u015c\7"+
		"A\2\2\u015c\u015d\5z>\2\u015d\u015e\7B\2\2\u015e\u015f\5\22\n\2\u015f"+
		"\u0163\3\2\2\2\u0160\u0163\5\16\b\2\u0161\u0163\7q\2\2\u0162\u0155\3\2"+
		"\2\2\u0162\u015a\3\2\2\2\u0162\u0160\3\2\2\2\u0162\u0161\3\2\2\2\u0163"+
		"\23\3\2\2\2\u0164\u0165\b\13\1\2\u0165\u0166\5\22\n\2\u0166\u0172\3\2"+
		"\2\2\u0167\u0168\f\5\2\2\u0168\u0169\7Q\2\2\u0169\u0171\5\22\n\2\u016a"+
		"\u016b\f\4\2\2\u016b\u016c\7R\2\2\u016c\u0171\5\22\n\2\u016d\u016e\f\3"+
		"\2\2\u016e\u016f\7S\2\2\u016f\u0171\5\22\n\2\u0170\u0167\3\2\2\2\u0170"+
		"\u016a\3\2\2\2\u0170\u016d\3\2\2\2\u0171\u0174\3\2\2\2\u0172\u0170\3\2"+
		"\2\2\u0172\u0173\3\2\2\2\u0173\25\3\2\2\2\u0174\u0172\3\2\2\2\u0175\u0176"+
		"\b\f\1\2\u0176\u0177\5\24\13\2\u0177\u0180\3\2\2\2\u0178\u0179\f\4\2\2"+
		"\u0179\u017a\7M\2\2\u017a\u017f\5\24\13\2\u017b\u017c\f\3\2\2\u017c\u017d"+
		"\7O\2\2\u017d\u017f\5\24\13\2\u017e\u0178\3\2\2\2\u017e\u017b\3\2\2\2"+
		"\u017f\u0182\3\2\2\2\u0180\u017e\3\2\2\2\u0180\u0181\3\2\2\2\u0181\27"+
		"\3\2\2\2\u0182\u0180\3\2\2\2\u0183\u0184\b\r\1\2\u0184\u0185\5\26\f\2"+
		"\u0185\u018e\3\2\2\2\u0186\u0187\f\4\2\2\u0187\u0188\7K\2\2\u0188\u018d"+
		"\5\26\f\2\u0189\u018a\f\3\2\2\u018a\u018b\7L\2\2\u018b\u018d\5\26\f\2"+
		"\u018c\u0186\3\2\2\2\u018c\u0189\3\2\2\2\u018d\u0190\3\2\2\2\u018e\u018c"+
		"\3\2\2\2\u018e\u018f\3\2\2\2\u018f\31\3\2\2\2\u0190\u018e\3\2\2\2\u0191"+
		"\u0192\b\16\1\2\u0192\u0193\5\30\r\2\u0193\u01a2\3\2\2\2\u0194\u0195\f"+
		"\6\2\2\u0195\u0196\7G\2\2\u0196\u01a1\5\30\r\2\u0197\u0198\f\5\2\2\u0198"+
		"\u0199\7I\2\2\u0199\u01a1\5\30\r\2\u019a\u019b\f\4\2\2\u019b\u019c\7H"+
		"\2\2\u019c\u01a1\5\30\r\2\u019d\u019e\f\3\2\2\u019e\u019f\7J\2\2\u019f"+
		"\u01a1\5\30\r\2\u01a0\u0194\3\2\2\2\u01a0\u0197\3\2\2\2\u01a0\u019a\3"+
		"\2\2\2\u01a0\u019d\3\2\2\2\u01a1\u01a4\3\2\2\2\u01a2\u01a0\3\2\2\2\u01a2"+
		"\u01a3\3\2\2\2\u01a3\33\3\2\2\2\u01a4\u01a2\3\2\2\2\u01a5\u01a6\b\17\1"+
		"\2\u01a6\u01a7\5\32\16\2\u01a7\u01b0\3\2\2\2\u01a8\u01a9\f\4\2\2\u01a9"+
		"\u01aa\7j\2\2\u01aa\u01af\5\32\16\2\u01ab\u01ac\f\3\2\2\u01ac\u01ad\7"+
		"k\2\2\u01ad\u01af\5\32\16\2\u01ae\u01a8\3\2\2\2\u01ae\u01ab\3\2\2\2\u01af"+
		"\u01b2\3\2\2\2\u01b0\u01ae\3\2\2\2\u01b0\u01b1\3\2\2\2\u01b1\35\3\2\2"+
		"\2\u01b2\u01b0\3\2\2\2\u01b3\u01b4\b\20\1\2\u01b4\u01b5\5\34\17\2\u01b5"+
		"\u01bb\3\2\2\2\u01b6\u01b7\f\3\2\2\u01b7\u01b8\7T\2\2\u01b8\u01ba\5\34"+
		"\17\2\u01b9\u01b6\3\2\2\2\u01ba\u01bd\3\2\2\2\u01bb\u01b9\3\2\2\2\u01bb"+
		"\u01bc\3\2\2\2\u01bc\37\3\2\2\2\u01bd\u01bb\3\2\2\2\u01be\u01bf\b\21\1"+
		"\2\u01bf\u01c0\5\36\20\2\u01c0\u01c6\3\2\2\2\u01c1\u01c2\f\3\2\2\u01c2"+
		"\u01c3\7X\2\2\u01c3\u01c5\5\36\20\2\u01c4\u01c1\3\2\2\2\u01c5\u01c8\3"+
		"\2\2\2\u01c6\u01c4\3\2\2\2\u01c6\u01c7\3\2\2\2\u01c7!\3\2\2\2\u01c8\u01c6"+
		"\3\2\2\2\u01c9\u01ca\b\22\1\2\u01ca\u01cb\5 \21\2\u01cb\u01d1\3\2\2\2"+
		"\u01cc\u01cd\f\3\2\2\u01cd\u01ce\7U\2\2\u01ce\u01d0\5 \21\2\u01cf\u01cc"+
		"\3\2\2\2\u01d0\u01d3\3\2\2\2\u01d1\u01cf\3\2\2\2\u01d1\u01d2\3\2\2\2\u01d2"+
		"#\3\2\2\2\u01d3\u01d1\3\2\2\2\u01d4\u01d5\b\23\1\2\u01d5\u01d6\5\"\22"+
		"\2\u01d6\u01dc\3\2\2\2\u01d7\u01d8\f\3\2\2\u01d8\u01d9\7V\2\2\u01d9\u01db"+
		"\5\"\22\2\u01da\u01d7\3\2\2\2\u01db\u01de\3\2\2\2\u01dc\u01da\3\2\2\2"+
		"\u01dc\u01dd\3\2\2\2\u01dd%\3\2\2\2\u01de\u01dc\3\2\2\2\u01df\u01e0\b"+
		"\24\1\2\u01e0\u01e1\5$\23\2\u01e1\u01e7\3\2\2\2\u01e2\u01e3\f\3\2\2\u01e3"+
		"\u01e4\7W\2\2\u01e4\u01e6\5$\23\2\u01e5\u01e2\3\2\2\2\u01e6\u01e9\3\2"+
		"\2\2\u01e7\u01e5\3\2\2\2\u01e7\u01e8\3\2\2\2\u01e8\'\3\2\2\2\u01e9\u01e7"+
		"\3\2\2\2\u01ea\u01f0\5&\24\2\u01eb\u01ec\7[\2\2\u01ec\u01ed\5.\30\2\u01ed"+
		"\u01ee\7\\\2\2\u01ee\u01ef\5(\25\2\u01ef\u01f1\3\2\2\2\u01f0\u01eb\3\2"+
		"\2\2\u01f0\u01f1\3\2\2\2\u01f1)\3\2\2\2\u01f2\u01f9\5(\25\2\u01f3\u01f4"+
		"\5\16\b\2\u01f4\u01f5\5,\27\2\u01f5\u01f6\5*\26\2\u01f6\u01f9\3\2\2\2"+
		"\u01f7\u01f9\7q\2\2\u01f8\u01f2\3\2\2\2\u01f8\u01f3\3\2\2\2\u01f8\u01f7"+
		"\3\2\2\2\u01f9+\3\2\2\2\u01fa\u01fb\t\3\2\2\u01fb-\3\2\2\2\u01fc\u01fd"+
		"\b\30\1\2\u01fd\u01fe\5*\26\2\u01fe\u0204\3\2\2\2\u01ff\u0200\f\3\2\2"+
		"\u0200\u0201\7^\2\2\u0201\u0203\5*\26\2\u0202\u01ff\3\2\2\2\u0203\u0206"+
		"\3\2\2\2\u0204\u0202\3\2\2\2\u0204\u0205\3\2\2\2\u0205/\3\2\2\2\u0206"+
		"\u0204\3\2\2\2\u0207\u0208\5(\25\2\u0208\61\3\2\2\2\u0209\u020a\5\64\33"+
		"\2\u020a\u020b\5:\36\2\u020b\u020c\7]\2\2\u020c\u0212\3\2\2\2\u020d\u020e"+
		"\5\64\33\2\u020e\u020f\7]\2\2\u020f\u0212\3\2\2\2\u0210\u0212\5\u008c"+
		"G\2\u0211\u0209\3\2\2\2\u0211\u020d\3\2\2\2\u0211\u0210\3\2\2\2\u0212"+
		"\63\3\2\2\2\u0213\u0215\58\35\2\u0214\u0213\3\2\2\2\u0215\u0216\3\2\2"+
		"\2\u0216\u0214\3\2\2\2\u0216\u0217\3\2\2\2\u0217\65\3\2\2\2\u0218\u021a"+
		"\58\35\2\u0219\u0218\3\2\2\2\u021a\u021b\3\2\2\2\u021b\u0219\3\2\2\2\u021b"+
		"\u021c\3\2\2\2\u021c\67\3\2\2\2\u021d\u0223\5> \2\u021e\u0223\5@!\2\u021f"+
		"\u0223\5Z.\2\u0220\u0223\5\\/\2\u0221\u0223\5^\60\2\u0222\u021d\3\2\2"+
		"\2\u0222\u021e\3\2\2\2\u0222\u021f\3\2\2\2\u0222\u0220\3\2\2\2\u0222\u0221"+
		"\3\2\2\2\u02239\3\2\2\2\u0224\u0225\b\36\1\2\u0225\u0226\5<\37\2\u0226"+
		"\u022c\3\2\2\2\u0227\u0228\f\3\2\2\u0228\u0229\7^\2\2\u0229\u022b\5<\37"+
		"\2\u022a\u0227\3\2\2\2\u022b\u022e\3\2\2\2\u022c\u022a\3\2\2\2\u022c\u022d"+
		"\3\2\2\2\u022d;\3\2\2\2\u022e\u022c\3\2\2\2\u022f\u0235\5`\61\2\u0230"+
		"\u0231\5`\61\2\u0231\u0232\7_\2\2\u0232\u0233\5\u0082B\2\u0233\u0235\3"+
		"\2\2\2\u0234\u022f\3\2\2\2\u0234\u0230\3\2\2\2\u0235=\3\2\2\2\u0236\u0237"+
		"\t\4\2\2\u0237?\3\2\2\2\u0238\u0239\b!\1\2\u0239\u0248\t\5\2\2\u023a\u023b"+
		"\7\3\2\2\u023b\u023c\7A\2\2\u023c\u023d\t\6\2\2\u023d\u0248\7B\2\2\u023e"+
		"\u0248\5X-\2\u023f\u0248\5B\"\2\u0240\u0248\5P)\2\u0241\u0248\5\u0080"+
		"A\2\u0242\u0243\7\t\2\2\u0243\u0244\7A\2\2\u0244\u0245\5\60\31\2\u0245"+
		"\u0246\7B\2\2\u0246\u0248\3\2\2\2\u0247\u0238\3\2\2\2\u0247\u023a\3\2"+
		"\2\2\u0247\u023e\3\2\2\2\u0247\u023f\3\2\2\2\u0247\u0240\3\2\2\2\u0247"+
		"\u0241\3\2\2\2\u0247\u0242\3\2\2\2\u0248\u024d\3\2\2\2\u0249\u024a\f\3"+
		"\2\2\u024a\u024c\5n8\2\u024b\u0249\3\2\2\2\u024c\u024f\3\2\2\2\u024d\u024b"+
		"\3\2\2\2\u024d\u024e\3\2\2\2\u024eA\3\2\2\2\u024f\u024d\3\2\2\2\u0250"+
		"\u0252\5D#\2\u0251\u0253\7o\2\2\u0252\u0251\3\2\2\2\u0252\u0253\3\2\2"+
		"\2\u0253\u0254\3\2\2\2\u0254\u0255\7E\2\2\u0255\u0256\5F$\2\u0256\u0257"+
		"\7F\2\2\u0257\u025c\3\2\2\2\u0258\u0259\5D#\2\u0259\u025a\7o\2\2\u025a"+
		"\u025c\3\2\2\2\u025b\u0250\3\2\2\2\u025b\u0258\3\2\2\2\u025cC\3\2\2\2"+
		"\u025d\u025e\t\7\2\2\u025eE\3\2\2\2\u025f\u0260\b$\1\2\u0260\u0261\5H"+
		"%\2\u0261\u0266\3\2\2\2\u0262\u0263\f\3\2\2\u0263\u0265\5H%\2\u0264\u0262"+
		"\3\2\2\2\u0265\u0268\3\2\2\2\u0266\u0264\3\2\2\2\u0266\u0267\3\2\2\2\u0267"+
		"G\3\2\2\2\u0268\u0266\3\2\2\2\u0269\u026b\5J&\2\u026a\u026c\5L\'\2\u026b"+
		"\u026a\3\2\2\2\u026b\u026c\3\2\2\2\u026c\u026d\3\2\2\2\u026d\u026e\7]"+
		"\2\2\u026e\u0271\3\2\2\2\u026f\u0271\5\u008cG\2\u0270\u0269\3\2\2\2\u0270"+
		"\u026f\3\2\2\2\u0271I\3\2\2\2\u0272\u0274\5@!\2\u0273\u0275\5J&\2\u0274"+
		"\u0273\3\2\2\2\u0274\u0275\3\2\2\2\u0275\u027b\3\2\2\2\u0276\u0278\5Z"+
		".\2\u0277\u0279\5J&\2\u0278\u0277\3\2\2\2\u0278\u0279\3\2\2\2\u0279\u027b"+
		"\3\2\2\2\u027a\u0272\3\2\2\2\u027a\u0276\3\2\2\2\u027bK\3\2\2\2\u027c"+
		"\u027d\b\'\1\2\u027d\u027e\5N(\2\u027e\u0284\3\2\2\2\u027f\u0280\f\3\2"+
		"\2\u0280\u0281\7^\2\2\u0281\u0283\5N(\2\u0282\u027f\3\2\2\2\u0283\u0286"+
		"\3\2\2\2\u0284\u0282\3\2\2\2\u0284\u0285\3\2\2\2\u0285M\3\2\2\2\u0286"+
		"\u0284\3\2\2\2\u0287\u028e\5`\61\2\u0288\u028a\5`\61\2\u0289\u0288\3\2"+
		"\2\2\u0289\u028a\3\2\2\2\u028a\u028b\3\2\2\2\u028b\u028c\7\\\2\2\u028c"+
		"\u028e\5\60\31\2\u028d\u0287\3\2\2\2\u028d\u0289\3\2\2\2\u028eO\3\2\2"+
		"\2\u028f\u0291\7\37\2\2\u0290\u0292\7o\2\2\u0291\u0290\3\2\2\2\u0291\u0292"+
		"\3\2\2\2\u0292\u0293\3\2\2\2\u0293\u0294\7E\2\2\u0294\u0295\5R*\2\u0295"+
		"\u0296\7F\2\2\u0296\u02a3\3\2\2\2\u0297\u0299\7\37\2\2\u0298\u029a\7o"+
		"\2\2\u0299\u0298\3\2\2\2\u0299\u029a\3\2\2\2\u029a\u029b\3\2\2\2\u029b"+
		"\u029c\7E\2\2\u029c\u029d\5R*\2\u029d\u029e\7^\2\2\u029e\u029f\7F\2\2"+
		"\u029f\u02a3\3\2\2\2\u02a0\u02a1\7\37\2\2\u02a1\u02a3\7o\2\2\u02a2\u028f"+
		"\3\2\2\2\u02a2\u0297\3\2\2\2\u02a2\u02a0\3\2\2\2\u02a3Q\3\2\2\2\u02a4"+
		"\u02a5\b*\1\2\u02a5\u02a6\5T+\2\u02a6\u02ac\3\2\2\2\u02a7\u02a8\f\3\2"+
		"\2\u02a8\u02a9\7^\2\2\u02a9\u02ab\5T+\2\u02aa\u02a7\3\2\2\2\u02ab\u02ae"+
		"\3\2\2\2\u02ac\u02aa\3\2\2\2\u02ac\u02ad\3\2\2\2\u02adS\3\2\2\2\u02ae"+
		"\u02ac\3\2\2\2\u02af\u02b5\5V,\2\u02b0\u02b1\5V,\2\u02b1\u02b2\7_\2\2"+
		"\u02b2\u02b3\5\60\31\2\u02b3\u02b5\3\2\2\2\u02b4\u02af\3\2\2\2\u02b4\u02b0"+
		"\3\2\2\2\u02b5U\3\2\2\2\u02b6\u02b7\7o\2\2\u02b7W\3\2\2\2\u02b8\u02b9"+
		"\79\2\2\u02b9\u02ba\7A\2\2\u02ba\u02bb\5z>\2\u02bb\u02bc\7B\2\2\u02bc"+
		"Y\3\2\2\2\u02bd\u02be\t\b\2\2\u02be[\3\2\2\2\u02bf\u02c6\t\t\2\2\u02c0"+
		"\u02c6\5f\64\2\u02c1\u02c2\7\f\2\2\u02c2\u02c3\7A\2\2\u02c3\u02c4\7o\2"+
		"\2\u02c4\u02c6\7B\2\2\u02c5\u02bf\3\2\2\2\u02c5\u02c0\3\2\2\2\u02c5\u02c1"+
		"\3\2\2\2\u02c6]\3\2\2\2\u02c7\u02c8\7\67\2\2\u02c8\u02c9\7A\2\2\u02c9"+
		"\u02ca\5z>\2\u02ca\u02cb\7B\2\2\u02cb\u02d2\3\2\2\2\u02cc\u02cd\7\67\2"+
		"\2\u02cd\u02ce\7A\2\2\u02ce\u02cf\5\60\31\2\u02cf\u02d0\7B\2\2\u02d0\u02d2"+
		"\3\2\2\2\u02d1\u02c7\3\2\2\2\u02d1\u02cc\3\2\2\2\u02d2_\3\2\2\2\u02d3"+
		"\u02d5\5n8\2\u02d4\u02d3\3\2\2\2\u02d4\u02d5\3\2\2\2\u02d5\u02d6\3\2\2"+
		"\2\u02d6\u02da\5b\62\2\u02d7\u02d9\5d\63\2\u02d8\u02d7\3\2\2\2\u02d9\u02dc"+
		"\3\2\2\2\u02da\u02d8\3\2\2\2\u02da\u02db\3\2\2\2\u02dba\3\2\2\2\u02dc"+
		"\u02da\3\2\2\2\u02dd\u02de\b\62\1\2\u02de\u02ef\7o\2\2\u02df\u02e0\7A"+
		"\2\2\u02e0\u02e1\5`\61\2\u02e1\u02e2\7B\2\2\u02e2\u02ef\3\2\2\2\u02e3"+
		"\u02e4\7o\2\2\u02e4\u02e5\7\\\2\2\u02e5\u02ef\7q\2\2\u02e6\u02e8\7A\2"+
		"\2\u02e7\u02e9\5@!\2\u02e8\u02e7\3\2\2\2\u02e8\u02e9\3\2\2\2\u02e9\u02ea"+
		"\3\2\2\2\u02ea\u02eb\5n8\2\u02eb\u02ec\5b\62\2\u02ec\u02ed\7B\2\2\u02ed"+
		"\u02ef\3\2\2\2\u02ee\u02dd\3\2\2\2\u02ee\u02df\3\2\2\2\u02ee\u02e3\3\2"+
		"\2\2\u02ee\u02e6\3\2\2\2\u02ef\u031d\3\2\2\2\u02f0\u02f1\f\n\2\2\u02f1"+
		"\u02f3\7C\2\2\u02f2\u02f4\5p9\2\u02f3\u02f2\3\2\2\2\u02f3\u02f4\3\2\2"+
		"\2\u02f4\u02f6\3\2\2\2\u02f5\u02f7\5*\26\2\u02f6\u02f5\3\2\2\2\u02f6\u02f7"+
		"\3\2\2\2\u02f7\u02f8\3\2\2\2\u02f8\u031c\7D\2\2\u02f9\u02fa\f\t\2\2\u02fa"+
		"\u02fb\7C\2\2\u02fb\u02fd\7.\2\2\u02fc\u02fe\5p9\2\u02fd\u02fc\3\2\2\2"+
		"\u02fd\u02fe\3\2\2\2\u02fe\u02ff\3\2\2\2\u02ff\u0300\5*\26\2\u0300\u0301"+
		"\7D\2\2\u0301\u031c\3\2\2\2\u0302\u0303\f\b\2\2\u0303\u0304\7C\2\2\u0304"+
		"\u0305\5p9\2\u0305\u0306\7.\2\2\u0306\u0307\5*\26\2\u0307\u0308\7D\2\2"+
		"\u0308\u031c\3\2\2\2\u0309\u030a\f\7\2\2\u030a\u030c\7C\2\2\u030b\u030d"+
		"\5p9\2\u030c\u030b\3\2\2\2\u030c\u030d\3\2\2\2\u030d\u030e\3\2\2\2\u030e"+
		"\u030f\7Q\2\2\u030f\u031c\7D\2\2\u0310\u0311\f\6\2\2\u0311\u0312\7A\2"+
		"\2\u0312\u0313\5r:\2\u0313\u0314\7B\2\2\u0314\u031c\3\2\2\2\u0315\u0316"+
		"\f\5\2\2\u0316\u0318\7A\2\2\u0317\u0319\5x=\2\u0318\u0317\3\2\2\2\u0318"+
		"\u0319\3\2\2\2\u0319\u031a\3\2\2\2\u031a\u031c\7B\2\2\u031b\u02f0\3\2"+
		"\2\2\u031b\u02f9\3\2\2\2\u031b\u0302\3\2\2\2\u031b\u0309\3\2\2\2\u031b"+
		"\u0310\3\2\2\2\u031b\u0315\3\2\2\2\u031c\u031f\3\2\2\2\u031d\u031b\3\2"+
		"\2\2\u031d\u031e\3\2\2\2\u031ec\3\2\2\2\u031f\u031d\3\2\2\2\u0320\u0321"+
		"\7\r\2\2\u0321\u0323\7A\2\2\u0322\u0324\7r\2\2\u0323\u0322\3\2\2\2\u0324"+
		"\u0325\3\2\2\2\u0325\u0323\3\2\2\2\u0325\u0326\3\2\2\2\u0326\u0327\3\2"+
		"\2\2\u0327\u032a\7B\2\2\u0328\u032a\5f\64\2\u0329\u0320\3\2\2\2\u0329"+
		"\u0328\3\2\2\2\u032ae\3\2\2\2\u032b\u032c\7\16\2\2\u032c\u032d\7A\2\2"+
		"\u032d\u032e\7A\2\2\u032e\u032f\5h\65\2\u032f\u0330\7B\2\2\u0330\u0331"+
		"\7B\2\2\u0331g\3\2\2\2\u0332\u0337\5j\66\2\u0333\u0334\7^\2\2\u0334\u0336"+
		"\5j\66\2\u0335\u0333\3\2\2\2\u0336\u0339\3\2\2\2\u0337\u0335\3\2\2\2\u0337"+
		"\u0338\3\2\2\2\u0338\u033c\3\2\2\2\u0339\u0337\3\2\2\2\u033a\u033c\3\2"+
		"\2\2\u033b\u0332\3\2\2\2\u033b\u033a\3\2\2\2\u033ci\3\2\2\2\u033d\u0343"+
		"\n\n\2\2\u033e\u0340\7A\2\2\u033f\u0341\5\f\7\2\u0340\u033f\3\2\2\2\u0340"+
		"\u0341\3\2\2\2\u0341\u0342\3\2\2\2\u0342\u0344\7B\2\2\u0343\u033e\3\2"+
		"\2\2\u0343\u0344\3\2\2\2\u0344\u0347\3\2\2\2\u0345\u0347\3\2\2\2\u0346"+
		"\u033d\3\2\2\2\u0346\u0345\3\2\2\2\u0347k\3\2\2\2\u0348\u034e\n\13\2\2"+
		"\u0349\u034a\7A\2\2\u034a\u034b\5l\67\2\u034b\u034c\7B\2\2\u034c\u034e"+
		"\3\2\2\2\u034d\u0348\3\2\2\2\u034d\u0349\3\2\2\2\u034e\u0351\3\2\2\2\u034f"+
		"\u034d\3\2\2\2\u034f\u0350\3\2\2\2\u0350m\3\2\2\2\u0351\u034f\3\2\2\2"+
		"\u0352\u0354\7Q\2\2\u0353\u0355\5p9\2\u0354\u0353\3\2\2\2\u0354\u0355"+
		"\3\2\2\2\u0355\u0365\3\2\2\2\u0356\u0358\7Q\2\2\u0357\u0359\5p9\2\u0358"+
		"\u0357\3\2\2\2\u0358\u0359\3\2\2\2\u0359\u035a\3\2\2\2\u035a\u0365\5n"+
		"8\2\u035b\u035d\7X\2\2\u035c\u035e\5p9\2\u035d\u035c\3\2\2\2\u035d\u035e"+
		"\3\2\2\2\u035e\u0365\3\2\2\2\u035f\u0361\7X\2\2\u0360\u0362\5p9\2\u0361"+
		"\u0360\3\2\2\2\u0361\u0362\3\2\2\2\u0362\u0363\3\2\2\2\u0363\u0365\5n"+
		"8\2\u0364\u0352\3\2\2\2\u0364\u0356\3\2\2\2\u0364\u035b\3\2\2\2\u0364"+
		"\u035f\3\2\2\2\u0365o\3\2\2\2\u0366\u0367\b9\1\2\u0367\u0368\5Z.\2\u0368"+
		"\u036d\3\2\2\2\u0369\u036a\f\3\2\2\u036a\u036c\5Z.\2\u036b\u0369\3\2\2"+
		"\2\u036c\u036f\3\2\2\2\u036d\u036b\3\2\2\2\u036d\u036e\3\2\2\2\u036eq"+
		"\3\2\2\2\u036f\u036d\3\2\2\2\u0370\u0376\5t;\2\u0371\u0372\5t;\2\u0372"+
		"\u0373\7^\2\2\u0373\u0374\7n\2\2\u0374\u0376\3\2\2\2\u0375\u0370\3\2\2"+
		"\2\u0375\u0371\3\2\2\2\u0376s\3\2\2\2\u0377\u0378\b;\1\2\u0378\u0379\5"+
		"v<\2\u0379\u037f\3\2\2\2\u037a\u037b\f\3\2\2\u037b\u037c\7^\2\2\u037c"+
		"\u037e\5v<\2\u037d\u037a\3\2\2\2\u037e\u0381\3\2\2\2\u037f\u037d\3\2\2"+
		"\2\u037f\u0380\3\2\2\2\u0380u\3\2\2\2\u0381\u037f\3\2\2\2\u0382\u0383"+
		"\5\64\33\2\u0383\u0384\5`\61\2\u0384\u038a\3\2\2\2\u0385\u0387\5\66\34"+
		"\2\u0386\u0388\5|?\2\u0387\u0386\3\2\2\2\u0387\u0388\3\2\2\2\u0388\u038a"+
		"\3\2\2\2\u0389\u0382\3\2\2\2\u0389\u0385\3\2\2\2\u038aw\3\2\2\2\u038b"+
		"\u038c\b=\1\2\u038c\u038d\7o\2\2\u038d\u0393\3\2\2\2\u038e\u038f\f\3\2"+
		"\2\u038f\u0390\7^\2\2\u0390\u0392\7o\2\2\u0391\u038e\3\2\2\2\u0392\u0395"+
		"\3\2\2\2\u0393\u0391\3\2\2\2\u0393\u0394\3\2\2\2\u0394y\3\2\2\2\u0395"+
		"\u0393\3\2\2\2\u0396\u0398\5J&\2\u0397\u0399\5|?\2\u0398\u0397\3\2\2\2"+
		"\u0398\u0399\3\2\2\2\u0399{\3\2\2\2\u039a\u03a6\5n8\2\u039b\u039d\5n8"+
		"\2\u039c\u039b\3\2\2\2\u039c\u039d\3\2\2\2\u039d\u039e\3\2\2\2\u039e\u03a2"+
		"\5~@\2\u039f\u03a1\5d\63\2\u03a0\u039f\3\2\2\2\u03a1\u03a4\3\2\2\2\u03a2"+
		"\u03a0\3\2\2\2\u03a2\u03a3\3\2\2\2\u03a3\u03a6\3\2\2\2\u03a4\u03a2\3\2"+
		"\2\2\u03a5\u039a\3\2\2\2\u03a5\u039c\3\2\2\2\u03a6}\3\2\2\2\u03a7\u03a8"+
		"\b@\1\2\u03a8\u03a9\7A\2\2\u03a9\u03aa\5|?\2\u03aa\u03ae\7B\2\2\u03ab"+
		"\u03ad\5d\63\2\u03ac\u03ab\3\2\2\2\u03ad\u03b0\3\2\2\2\u03ae\u03ac\3\2"+
		"\2\2\u03ae\u03af\3\2\2\2\u03af\u03d6\3\2\2\2\u03b0\u03ae\3\2\2\2\u03b1"+
		"\u03b3\7C\2\2\u03b2\u03b4\5p9\2\u03b3\u03b2\3\2\2\2\u03b3\u03b4\3\2\2"+
		"\2\u03b4\u03b6\3\2\2\2\u03b5\u03b7\5*\26\2\u03b6\u03b5\3\2\2\2\u03b6\u03b7"+
		"\3\2\2\2\u03b7\u03b8\3\2\2\2\u03b8\u03d6\7D\2\2\u03b9\u03ba\7C\2\2\u03ba"+
		"\u03bc\7.\2\2\u03bb\u03bd\5p9\2\u03bc\u03bb\3\2\2\2\u03bc\u03bd\3\2\2"+
		"\2\u03bd\u03be\3\2\2\2\u03be\u03bf\5*\26\2\u03bf\u03c0\7D\2\2\u03c0\u03d6"+
		"\3\2\2\2\u03c1\u03c2\7C\2\2\u03c2\u03c3\5p9\2\u03c3\u03c4\7.\2\2\u03c4"+
		"\u03c5\5*\26\2\u03c5\u03c6\7D\2\2\u03c6\u03d6\3\2\2\2\u03c7\u03c8\7C\2"+
		"\2\u03c8\u03c9\7Q\2\2\u03c9\u03d6\7D\2\2\u03ca\u03cc\7A\2\2\u03cb\u03cd"+
		"\5r:\2\u03cc\u03cb\3\2\2\2\u03cc\u03cd\3\2\2\2\u03cd\u03ce\3\2\2\2\u03ce"+
		"\u03d2\7B\2\2\u03cf\u03d1\5d\63\2\u03d0\u03cf\3\2\2\2\u03d1\u03d4\3\2"+
		"\2\2\u03d2\u03d0\3\2\2\2\u03d2\u03d3\3\2\2\2\u03d3\u03d6\3\2\2\2\u03d4"+
		"\u03d2\3\2\2\2\u03d5\u03a7\3\2\2\2\u03d5\u03b1\3\2\2\2\u03d5\u03b9\3\2"+
		"\2\2\u03d5\u03c1\3\2\2\2\u03d5\u03c7\3\2\2\2\u03d5\u03ca\3\2\2\2\u03d6"+
		"\u0402\3\2\2\2\u03d7\u03d8\f\7\2\2\u03d8\u03da\7C\2\2\u03d9\u03db\5p9"+
		"\2\u03da\u03d9\3\2\2\2\u03da\u03db\3\2\2\2\u03db\u03dd\3\2\2\2\u03dc\u03de"+
		"\5*\26\2\u03dd\u03dc\3\2\2\2\u03dd\u03de\3\2\2\2\u03de\u03df\3\2\2\2\u03df"+
		"\u0401\7D\2\2\u03e0\u03e1\f\6\2\2\u03e1\u03e2\7C\2\2\u03e2\u03e4\7.\2"+
		"\2\u03e3\u03e5\5p9\2\u03e4\u03e3\3\2\2\2\u03e4\u03e5\3\2\2\2\u03e5\u03e6"+
		"\3\2\2\2\u03e6\u03e7\5*\26\2\u03e7\u03e8\7D\2\2\u03e8\u0401\3\2\2\2\u03e9"+
		"\u03ea\f\5\2\2\u03ea\u03eb\7C\2\2\u03eb\u03ec\5p9\2\u03ec\u03ed\7.\2\2"+
		"\u03ed\u03ee\5*\26\2\u03ee\u03ef\7D\2\2\u03ef\u0401\3\2\2\2\u03f0\u03f1"+
		"\f\4\2\2\u03f1\u03f2\7C\2\2\u03f2\u03f3\7Q\2\2\u03f3\u0401\7D\2\2\u03f4"+
		"\u03f5\f\3\2\2\u03f5\u03f7\7A\2\2\u03f6\u03f8\5r:\2\u03f7\u03f6\3\2\2"+
		"\2\u03f7\u03f8\3\2\2\2\u03f8\u03f9\3\2\2\2\u03f9\u03fd\7B\2\2\u03fa\u03fc"+
		"\5d\63\2\u03fb\u03fa\3\2\2\2\u03fc\u03ff\3\2\2\2\u03fd\u03fb\3\2\2\2\u03fd"+
		"\u03fe\3\2\2\2\u03fe\u0401\3\2\2\2\u03ff\u03fd\3\2\2\2\u0400\u03d7\3\2"+
		"\2\2\u0400\u03e0\3\2\2\2\u0400\u03e9\3\2\2\2\u0400\u03f0\3\2\2\2\u0400"+
		"\u03f4\3\2\2\2\u0401\u0404\3\2\2\2\u0402\u0400\3\2\2\2\u0402\u0403\3\2"+
		"\2\2\u0403\177\3\2\2\2\u0404\u0402\3\2\2\2\u0405\u0406\7o\2\2\u0406\u0081"+
		"\3\2\2\2\u0407\u0412\5*\26\2\u0408\u0409\7E\2\2\u0409\u040a\5\u0084C\2"+
		"\u040a\u040b\7F\2\2\u040b\u0412\3\2\2\2\u040c\u040d\7E\2\2\u040d\u040e"+
		"\5\u0084C\2\u040e\u040f\7^\2\2\u040f\u0410\7F\2\2\u0410\u0412\3\2\2\2"+
		"\u0411\u0407\3\2\2\2\u0411\u0408\3\2\2\2\u0411\u040c\3\2\2\2\u0412\u0083"+
		"\3\2\2\2\u0413\u0415\bC\1\2\u0414\u0416\5\u0086D\2\u0415\u0414\3\2\2\2"+
		"\u0415\u0416\3\2\2\2\u0416\u0417\3\2\2\2\u0417\u0418\5\u0082B\2\u0418"+
		"\u0421\3\2\2\2\u0419\u041a\f\3\2\2\u041a\u041c\7^\2\2\u041b\u041d\5\u0086"+
		"D\2\u041c\u041b\3\2\2\2\u041c\u041d\3\2\2\2\u041d\u041e\3\2\2\2\u041e"+
		"\u0420\5\u0082B\2\u041f\u0419\3\2\2\2\u0420\u0423\3\2\2\2\u0421\u041f"+
		"\3\2\2\2\u0421\u0422\3\2\2\2\u0422\u0085\3\2\2\2\u0423\u0421\3\2\2\2\u0424"+
		"\u0425\5\u0088E\2\u0425\u0426\7_\2\2\u0426\u0087\3\2\2\2\u0427\u0428\b"+
		"E\1\2\u0428\u0429\5\u008aF\2\u0429\u042e\3\2\2\2\u042a\u042b\f\3\2\2\u042b"+
		"\u042d\5\u008aF\2\u042c\u042a\3\2\2\2\u042d\u0430\3\2\2\2\u042e\u042c"+
		"\3\2\2\2\u042e\u042f\3\2\2\2\u042f\u0089\3\2\2\2\u0430\u042e\3\2\2\2\u0431"+
		"\u0432\7C\2\2\u0432\u0433\5\60\31\2\u0433\u0434\7D\2\2\u0434\u0438\3\2"+
		"\2\2\u0435\u0436\7m\2\2\u0436\u0438\7o\2\2\u0437\u0431\3\2\2\2\u0437\u0435"+
		"\3\2\2\2\u0438\u008b\3\2\2\2\u0439\u043a\7?\2\2\u043a\u043b\7A\2\2\u043b"+
		"\u043c\5\60\31\2\u043c\u043e\7^\2\2\u043d\u043f\7r\2\2\u043e\u043d\3\2"+
		"\2\2\u043f\u0440\3\2\2\2\u0440\u043e\3\2\2\2\u0440\u0441\3\2\2\2\u0441"+
		"\u0442\3\2\2\2\u0442\u0443\7B\2\2\u0443\u0444\7]\2\2\u0444\u008d\3\2\2"+
		"\2\u0445\u046b\5\u0090I\2\u0446\u046b\5\u0092J\2\u0447\u046b\5\u0098M"+
		"\2\u0448\u046b\5\u009aN\2\u0449\u046b\5\u009cO\2\u044a\u046b\5\u00a4S"+
		"\2\u044b\u044c\t\f\2\2\u044c\u044d\t\r\2\2\u044d\u0456\7A\2\2\u044e\u0453"+
		"\5&\24\2\u044f\u0450\7^\2\2\u0450\u0452\5&\24\2\u0451\u044f\3\2\2\2\u0452"+
		"\u0455\3\2\2\2\u0453\u0451\3\2\2\2\u0453\u0454\3\2\2\2\u0454\u0457\3\2"+
		"\2\2\u0455\u0453\3\2\2\2\u0456\u044e\3\2\2\2\u0456\u0457\3\2\2\2\u0457"+
		"\u0465\3\2\2\2\u0458\u0461\7\\\2\2\u0459\u045e\5&\24\2\u045a\u045b\7^"+
		"\2\2\u045b\u045d\5&\24\2\u045c\u045a\3\2\2\2\u045d\u0460\3\2\2\2\u045e"+
		"\u045c\3\2\2\2\u045e\u045f\3\2\2\2\u045f\u0462\3\2\2\2\u0460\u045e\3\2"+
		"\2\2\u0461\u0459\3\2\2\2\u0461\u0462\3\2\2\2\u0462\u0464\3\2\2\2\u0463"+
		"\u0458\3\2\2\2\u0464\u0467\3\2\2\2\u0465\u0463\3\2\2\2\u0465\u0466\3\2"+
		"\2\2\u0466\u0468\3\2\2\2\u0467\u0465\3\2\2\2\u0468\u0469\7B\2\2\u0469"+
		"\u046b\7]\2\2\u046a\u0445\3\2\2\2\u046a\u0446\3\2\2\2\u046a\u0447\3\2"+
		"\2\2\u046a\u0448\3\2\2\2\u046a\u0449\3\2\2\2\u046a\u044a\3\2\2\2\u046a"+
		"\u044b\3\2\2\2\u046b\u008f\3\2\2\2\u046c\u046d\7o\2\2\u046d\u046e\7\\"+
		"\2\2\u046e\u0478\5\u008eH\2\u046f\u0470\7\27\2\2\u0470\u0471\5\60\31\2"+
		"\u0471\u0472\7\\\2\2\u0472\u0473\5\u008eH\2\u0473\u0478\3\2\2\2\u0474"+
		"\u0475\7\33\2\2\u0475\u0476\7\\\2\2\u0476\u0478\5\u008eH\2\u0477\u046c"+
		"\3\2\2\2\u0477\u046f\3\2\2\2\u0477\u0474\3\2\2\2\u0478\u0091\3\2\2\2\u0479"+
		"\u047b\7E\2\2\u047a\u047c\5\u0094K\2\u047b\u047a\3\2\2\2\u047b\u047c\3"+
		"\2\2\2\u047c\u047d\3\2\2\2\u047d\u047e\7F\2\2\u047e\u0093\3\2\2\2\u047f"+
		"\u0480\bK\1\2\u0480\u0481\5\u0096L\2\u0481\u0486\3\2\2\2\u0482\u0483\f"+
		"\3\2\2\u0483\u0485\5\u0096L\2\u0484\u0482\3\2\2\2\u0485\u0488\3\2\2\2"+
		"\u0486\u0484\3\2\2\2\u0486\u0487\3\2\2\2\u0487\u0095\3\2\2\2\u0488\u0486"+
		"\3\2\2\2\u0489\u048c\5\u008eH\2\u048a\u048c\5\62\32\2\u048b\u0489\3\2"+
		"\2\2\u048b\u048a\3\2\2\2\u048c\u0097\3\2\2\2\u048d\u048f\5.\30\2\u048e"+
		"\u048d\3\2\2\2\u048e\u048f\3\2\2\2\u048f\u0490\3\2\2\2\u0490\u0491\7]"+
		"\2\2\u0491\u0099\3\2\2\2\u0492\u0493\7$\2\2\u0493\u0494\7A\2\2\u0494\u0495"+
		"\5.\30\2\u0495\u0496\7B\2\2\u0496\u0499\5\u008eH\2\u0497\u0498\7\36\2"+
		"\2\u0498\u049a\5\u008eH\2\u0499\u0497\3\2\2\2\u0499\u049a\3\2\2\2\u049a"+
		"\u04a2\3\2\2\2\u049b\u049c\7\60\2\2\u049c\u049d\7A\2\2\u049d\u049e\5."+
		"\30\2\u049e\u049f\7B\2\2\u049f\u04a0\5\u008eH\2\u04a0\u04a2\3\2\2\2\u04a1"+
		"\u0492\3\2\2\2\u04a1\u049b\3\2\2\2\u04a2\u009b\3\2\2\2\u04a3\u04a4\7\66"+
		"\2\2\u04a4\u04a5\7A\2\2\u04a5\u04a6\5.\30\2\u04a6\u04a7\7B\2\2\u04a7\u04a8"+
		"\5\u008eH\2\u04a8\u04b8\3\2\2\2\u04a9\u04aa\7\34\2\2\u04aa\u04ab\5\u008e"+
		"H\2\u04ab\u04ac\7\66\2\2\u04ac\u04ad\7A\2\2\u04ad\u04ae\5.\30\2\u04ae"+
		"\u04af\7B\2\2\u04af\u04b0\7]\2\2\u04b0\u04b8\3\2\2\2\u04b1\u04b2\7\"\2"+
		"\2\u04b2\u04b3\7A\2\2\u04b3\u04b4\5\u009eP\2\u04b4\u04b5\7B\2\2\u04b5"+
		"\u04b6\5\u008eH\2\u04b6\u04b8\3\2\2\2\u04b7\u04a3\3\2\2\2\u04b7\u04a9"+
		"\3\2\2\2\u04b7\u04b1\3\2\2\2\u04b8\u009d\3\2\2\2\u04b9\u04ba\5\u00a0Q"+
		"\2\u04ba\u04bc\7]\2\2\u04bb\u04bd\5\u00a2R\2\u04bc\u04bb\3\2\2\2\u04bc"+
		"\u04bd\3\2\2\2\u04bd\u04be\3\2\2\2\u04be\u04c0\7]\2\2\u04bf\u04c1\5\u00a2"+
		"R\2\u04c0\u04bf\3\2\2\2\u04c0\u04c1\3\2\2\2\u04c1\u04ce\3\2\2\2\u04c2"+
		"\u04c4\5.\30\2\u04c3\u04c2\3\2\2\2\u04c3\u04c4\3\2\2\2\u04c4\u04c5\3\2"+
		"\2\2\u04c5\u04c7\7]\2\2\u04c6\u04c8\5\u00a2R\2\u04c7\u04c6\3\2\2\2\u04c7"+
		"\u04c8\3\2\2\2\u04c8\u04c9\3\2\2\2\u04c9\u04cb\7]\2\2\u04ca\u04cc\5\u00a2"+
		"R\2\u04cb\u04ca\3\2\2\2\u04cb\u04cc\3\2\2\2\u04cc\u04ce\3\2\2\2\u04cd"+
		"\u04b9\3\2\2\2\u04cd\u04c3\3\2\2\2\u04ce\u009f\3\2\2\2\u04cf\u04d0\5\64"+
		"\33\2\u04d0\u04d1\5:\36\2\u04d1\u04d4\3\2\2\2\u04d2\u04d4\5\64\33\2\u04d3"+
		"\u04cf\3\2\2\2\u04d3\u04d2\3\2\2\2\u04d4\u00a1\3\2\2\2\u04d5\u04d6\bR"+
		"\1\2\u04d6\u04d7\5*\26\2\u04d7\u04dd\3\2\2\2\u04d8\u04d9\f\3\2\2\u04d9"+
		"\u04da\7^\2\2\u04da\u04dc\5*\26\2\u04db\u04d8\3\2\2\2\u04dc\u04df\3\2"+
		"\2\2\u04dd\u04db\3\2\2\2\u04dd\u04de\3\2\2\2\u04de\u00a3\3\2\2\2\u04df"+
		"\u04dd\3\2\2\2\u04e0\u04e1\7#\2\2\u04e1\u04e2\7o\2\2\u04e2\u04f1\7]\2"+
		"\2\u04e3\u04e4\7\32\2\2\u04e4\u04f1\7]\2\2\u04e5\u04e6\7\26\2\2\u04e6"+
		"\u04f1\7]\2\2\u04e7\u04e9\7*\2\2\u04e8\u04ea\5.\30\2\u04e9\u04e8\3\2\2"+
		"\2\u04e9\u04ea\3\2\2\2\u04ea\u04eb\3\2\2\2\u04eb\u04f1\7]\2\2\u04ec\u04ed"+
		"\7#\2\2\u04ed\u04ee\5\16\b\2\u04ee\u04ef\7]\2\2\u04ef\u04f1\3\2\2\2\u04f0"+
		"\u04e0\3\2\2\2\u04f0\u04e3\3\2\2\2\u04f0\u04e5\3\2\2\2\u04f0\u04e7\3\2"+
		"\2\2\u04f0\u04ec\3\2\2\2\u04f1\u00a5\3\2\2\2\u04f2\u04f4\5\u00b0Y\2\u04f3"+
		"\u04f2\3\2\2\2\u04f3\u04f4\3\2\2\2\u04f4\u04f6\3\2\2\2\u04f5\u04f7\5\u00a8"+
		"U\2\u04f6\u04f5\3\2\2\2\u04f6\u04f7\3\2\2\2\u04f7\u04f8\3\2\2\2\u04f8"+
		"\u04f9\7\2\2\3\u04f9\u00a7\3\2\2\2\u04fa\u04fb\bU\1\2\u04fb\u04fc\5\u00aa"+
		"V\2\u04fc\u0501\3\2\2\2\u04fd\u04fe\f\3\2\2\u04fe\u0500\5\u00aaV\2\u04ff"+
		"\u04fd\3\2\2\2\u0500\u0503\3\2\2\2\u0501\u04ff\3\2\2\2\u0501\u0502\3\2"+
		"\2\2\u0502\u00a9\3\2\2\2\u0503\u0501\3\2\2\2\u0504\u0508\5\u00acW\2\u0505"+
		"\u0508\5\62\32\2\u0506\u0508\7]\2\2\u0507\u0504\3\2\2\2\u0507\u0505\3"+
		"\2\2\2\u0507\u0506\3\2\2\2\u0508\u00ab\3\2\2\2\u0509\u050b\5\64\33\2\u050a"+
		"\u0509\3\2\2\2\u050a\u050b\3\2\2\2\u050b\u050c\3\2\2\2\u050c\u050e\5`"+
		"\61\2\u050d\u050f\5\u00aeX\2\u050e\u050d\3\2\2\2\u050e\u050f\3\2\2\2\u050f"+
		"\u0510\3\2\2\2\u0510\u0511\5\u0092J\2\u0511\u00ad\3\2\2\2\u0512\u0513"+
		"\bX\1\2\u0513\u0514\5\62\32\2\u0514\u0519\3\2\2\2\u0515\u0516\f\3\2\2"+
		"\u0516\u0518\5\62\32\2\u0517\u0515\3\2\2\2\u0518\u051b\3\2\2\2\u0519\u0517"+
		"\3\2\2\2\u0519\u051a\3\2\2\2\u051a\u00af\3\2\2\2\u051b\u0519\3\2\2\2\u051c"+
		"\u051e\7\21\2\2\u051d\u051f\7x\2\2\u051e\u051d\3\2\2\2\u051e\u051f\3\2"+
		"\2\2\u051f\u0520\3\2\2\2\u0520\u0522\7\22\2\2\u0521\u0523\7x\2\2\u0522"+
		"\u0521\3\2\2\2\u0522\u0523\3\2\2\2\u0523\u052c\3\2\2\2\u0524\u0525\7\23"+
		"\2\2\u0525\u0526\5\u00b2Z\2\u0526\u0527\7\23\2\2\u0527\u052d\3\2\2\2\u0528"+
		"\u0529\7G\2\2\u0529\u052a\5\u00b2Z\2\u052a\u052b\7I\2\2\u052b\u052d\3"+
		"\2\2\2\u052c\u0524\3\2\2\2\u052c\u0528\3\2\2\2\u052d\u00b1\3\2\2\2\u052e"+
		"\u0530\7o\2\2\u052f\u0531\7m\2\2\u0530\u052f\3\2\2\2\u0530\u0531\3\2\2"+
		"\2\u0531\u0533\3\2\2\2\u0532\u0534\7\24\2\2\u0533\u0532\3\2\2\2\u0533"+
		"\u0534\3\2\2\2\u0534\u00b3\3\2\2\2\u0096\u00b9\u00c1\u00d5\u00e6\u00f0"+
		"\u0114\u011e\u012b\u012d\u0138\u0151\u0162\u0170\u0172\u017e\u0180\u018c"+
		"\u018e\u01a0\u01a2\u01ae\u01b0\u01bb\u01c6\u01d1\u01dc\u01e7\u01f0\u01f8"+
		"\u0204\u0211\u0216\u021b\u0222\u022c\u0234\u0247\u024d\u0252\u025b\u0266"+
		"\u026b\u0270\u0274\u0278\u027a\u0284\u0289\u028d\u0291\u0299\u02a2\u02ac"+
		"\u02b4\u02c5\u02d1\u02d4\u02da\u02e8\u02ee\u02f3\u02f6\u02fd\u030c\u0318"+
		"\u031b\u031d\u0325\u0329\u0337\u033b\u0340\u0343\u0346\u034d\u034f\u0354"+
		"\u0358\u035d\u0361\u0364\u036d\u0375\u037f\u0387\u0389\u0393\u0398\u039c"+
		"\u03a2\u03a5\u03ae\u03b3\u03b6\u03bc\u03cc\u03d2\u03d5\u03da\u03dd\u03e4"+
		"\u03f7\u03fd\u0400\u0402\u0411\u0415\u041c\u0421\u042e\u0437\u0440\u0453"+
		"\u0456\u045e\u0461\u0465\u046a\u0477\u047b\u0486\u048b\u048e\u0499\u04a1"+
		"\u04b7\u04bc\u04c0\u04c3\u04c7\u04cb\u04cd\u04d3\u04dd\u04e9\u04f0\u04f3"+
		"\u04f6\u0501\u0507\u050a\u050e\u0519\u051e\u0522\u052c\u0530\u0533";
	public static final ATN _ATN =
		new ATNDeserializer().deserialize(_serializedATN.toCharArray());
	static {
		_decisionToDFA = new DFA[_ATN.getNumberOfDecisions()];
		for (int i = 0; i < _ATN.getNumberOfDecisions(); i++) {
			_decisionToDFA[i] = new DFA(_ATN.getDecisionState(i), i);
		}
	}
}